Siemens 6DD1606-4AB0 Digital/Analog Input

Siemens 6DD1606-4AB0 Digital/Analog Input Description:

Sales Manager: Sandy Lin

Email: unity@mvme.cn

Skype:onlywnn_1 

Mobile(Whatsapp): (+86)-18020776786

​​​

Yuehang: 

Shipping Term : TNT,DHL,FEDEX,ETC

Payment Term : T/T

Warranty: 12 month

yuehang supply： New+original+factory sealed+high quality

Service: quotation will be sent in 9 hours

Skype + whatsapp + mobile  =  24 hours /day   Oneline.

Package: Original packing with cartons.
Delivery time: Shipped in 3 days after payment 

AUTOMOTIVE COMPONENTS

Capricious consumer trends require manufacturing lines that are particularly flexible and able to create a variety of parts, or assemble several product lines without much alteration. As a result of this need for flexibility, manufacturing automotive components and assembling them is often the area in which robot-based automation can be seen at its best.

Intelligent manufacturing in the body shop aims to improve efficiency in casting parts. Forging a vehicle’s exterior parts like the fascia, bumpers and fuel tank, and producing interior parts like instrument panels, seats and air bags requiring very broad know-how and solutions based on robotics. Manufacturing the powertrain, chassis and the body of the vehicle also demands a great deal of precision.

Moore Automation Limited understands these requirements and works with car manufacturers to obtain the spare parts they need, as soon as possible. We specialise in identifying parts for machining, assembly, test, materials handling, safety and robot-based automation. We also offer a comprehensive and straightforward supply and repair service which can significantly reduce costs for your company.

Siemens 6DD1606-4AB0 Digital/Analog Input

Siemens 6DD1606-4AB0 Digital/Analog Input

Siemens 6DD1606-4AB0 Digital/Analog Input

Signal Flow Diagrams
The following diagrams are overviews of the functions of the Standard PID Control.
The number of software switches with which you can select the functions you
require is particularly clear to see.
Analogous to the representation of the switches in the configuration tool, the black
dot in the switch symbols indicates that the switching symbol has the Boolean
value (0=FALSE or 1=TRUE) next to the switch and that the signal path is
switched via this dot. The switching signals (binary signals) are indicated by broken
lines.
In the diagrams, the subfunctions are represented with the default switch bits for
the default signal paths. In the initial situation, practically all the switching signals
have the value FALSE (exceptions: P_SEL, I_SEL and MAN_ON=TRUE).
This means that the setpoint is set via SP_INT, the same applies to the input of the
process value via PV_IN. The controller function is set to a normal PI controller
with the P function in the forward branch. The loop is open and the manipulated
variable is influenced in the percentage range by the MAN input. All other functions
are either passive or if they cannot be deactivated, they are assigned marginal
parameter values so that they have no effect
Symbols and Identifiers in the Signal Flow Diagrams
The names of the connectable process variables are shown on a shaded
background. This allows you to recognize where the controller structure can be
connected to the S7 I/Os or directly to the measurement components and
actuators of the process.
Parameter names including “OP” (for example SP_OP/SP_OP_ON) indicate that
an intervention using the configuration tool of the Standard PID Control is possible
at this point. The configuration tool has its own interface to the controller FB.
Interim values in the signal can be monitored at the measuring points MP1 to
MP12. These interim values are required to match values before triggering smooth
changeovers or to be able to check the current statuses of the controller. The
measuring point values can be represented statically and dynamically in the curve
recorder of the configuration tool.
To make the illustrations clearer, the parameters for setting and selecting the
dimensions of the processing functions (algorithms) are indicated beside individual
function fields. Please refer to the descriptions in the reference section and to the
representation of the individual subfunctions in the following sections

    
HT1-337600-390-30943    Procontic P13 Cardfile        
MT-91-RS-232F    MT-91 Touch Screen Panel Keypad    2.0001E+11    
 
RGAA    Current Replica Module    IN7433-3982-EB/06, RGAA 030    
RGAB    Voltage Replica Module    IN7433-3982-FC/06, RGAB 030    
RGGB    Phase Selector Module    IN7433-3982-DC/02, RGGB 030    
RGKC    Input Control Interface Module    IN7433-3982-AH/02, RGKC 070    
RGKD    Trip/Output Interface Module    IN7433-3982-BB/02, RGKD 050    
RGLA    Voltage Memory Module    IN7433-3982-KB/03, RGLA 030    
RGSB    Comparator/Indicator Module    IN7433-3982-LB/02, RGSB 030    
RGTA    Application Selector and Timer Module    IN7433-3982-GF/04, RGTA 030    
RGZB    Under-impedance Start Module    IMYN743208-A/04, RGZB 030    

114S866     MOD 30 Battery        
125P2981-1    AMP 9414    125S2981-1 AA    
125S1982    1700R Controller Analog Board    1700R    
125S1983    1700R Controller Math Unit Digital Board    1700R    
125S1987    1700J Recorder Digital Board    1700J    
125S1988    1700J Recorder Driver Board    1700J    
125S1989    1700J Recorder Analog Board    1700J    
125S1994    1700N Math Unit Analog Board    1700N    
125S2604    1720N Communications Link I/O Board    1720N    
125S2605-1    1720N Communications Link ICN Interface Board    1720N    
125S2606-1    1720N Communications Link CPU Board    1720N    
125S2630    1710R SLU CPU Board    1710R    
125S2631    1710R SLU Power Supply Board    1710R    
125S2632    1710R SLU I/O Board    1710R    
125S2636-1    1710R SLU Multiplexer Board    1710R    
125S2744    1734N LCP Memory/Backup Memory Boards    1734N    
125S2745-1    1734N LCP Processor Board    1734N,125S2745, DC 1860404    
125S2917-2    1800R MOD 30ML Main Board    1800R    
133S282-2CC    ABB Taylor MOD 30 and MOD 30 XL Controller Display        
1700DZ10000A    Portable Configurator for MOD 30        
1700DZ10005A    Portable Configurator for MOD 30        
1700DZ10006A    Portable Configurator for MOD 30        
1700FZ10000A    MOD 30 Portable Memory Module        
1700JZ14005A    ABB MOD 30 Recorder        
1700KZ10000A    Taylor MOD 30 Indicator        
1700KZ10000B    Taylor MOD 30 Indicator        
1700KZ14000A    Taylor MOD 30 Indicator        
1700KZ14000B    Taylor MOD 30 Indicator        
1700NZ14000A    MOD 30 Math Unit        
1700NZ14000B    MOD 30 Math Unit        
1700NZ14001A    MOD 30 Math Unit        
1700NZ14001B    MOD 30 Math Unit        
1700NZ14002A    MOD 30 Math Unit        
1700NZ14002B    MOD 30 Math Unit        
1700NZ14003A    MOD 30 Math Unit        
1700NZ14003B    MOD 30 Math Unit        
1700NZ14004A    MOD 30 Math Unit        
1700NZ14004B    MOD 30 Math Unit        
1700NZ14005A    MOD 30 Math Unit    1700NZ14005A-3757    
1700NZ14005B    MOD 30 Math Unit        
1700RZ10000-634A    Taylor MOD 30 Controller        
1700RZ10000A    Taylor MOD 30 Controller        
1700RZ10000B    Taylor MOD 30 Controller        
1700RZ10000C    Taylor MOD 30 Controller        
1700RZ10001A    Taylor MOD 30 Controller        
1700RZ10001B    Taylor MOD 30 Controller        
1700RZ10001C    Taylor MOD 30 Controller        
1700RZ10002A    Taylor MOD 30 Controller        
1700RZ10002B    Taylor MOD 30 Controller        
1700RZ10002C    Taylor MOD 30 Controller        
1700RZ10003A    Taylor MOD 30 Controller        
1700RZ10003B    Taylor MOD 30 Controller        
1700RZ10003C    Taylor MOD 30 Controller        
1700RZ10004A    Taylor MOD 30 Controller        
1700RZ10004B    Taylor MOD 30 Controller        
1700RZ10004C    Taylor MOD 30 Controller        
1700RZ10005A    Taylor MOD 30 Controller