341
CS MF201M0-P••
GEMNIS
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General Catalogue Safety 2021-2022
An increasing number of users requires products which carry out several safety functions without needing the complex management of a safety PLC or the complex wiring of many traditional safety modules. Such problems arise mainly when the safety functions are typically greater than 3 or 4, and/or when managing a safety PLC software (software purchase, training courses, programming of all modules, software management and filing, updates etc.) turns out to be too great an overhead in relation to problem complexity.Pizzato Elettrica introduces Gemnis, a series of electronic modules which are pre-programmed for specific customer applications or for generic safety macro-functions commonly used in industrial contexts. The following pages list some of the pre-programmed products for generic macro-functions commonly used in the industrial sector. These products are also available for individual purchase. Any customer requiring a product pre-programmed to their particular specification can contact the Pizzato Elettrica technical department (minimum volumes are requested).The resulting advantages for customers typically include simplified product management (purchase of finished components) and reduced general costs (no software to be installed and managed, products are immediately operational). All Gemnis series products are able to provide circuit solutions at SIL 3 (EN 62061), PL e (EN ISO 13849-1) or category 4 (EN ISO 13849-1) levels.
Introduction
CS MF pre-programmed multifunction safety modules
Code structure
Connection type
M Connector with screw terminals
Supply voltage
0 24 Vdc
Program code
P•• program code
Hardware code
••• hardware code
Quality marks:
EC type examination certificate: M6A 16 06 75157 010UL approval: E131787CCC approval: 2020970305002290TÜV SÜD approval: Z10 16 05 75157 009EAC approval: RU C-IT.УT03.В.00035/19
342
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Product code Functions executedSafety
outputsSignalling
outputsPage
CS MF201M0-P1Monitoring of 2 guards in AND and 1 emergency stop with automatic start or manual monitored start.
3 NO 4 PNP 343
CS MF202M0-P2Monitoring of 4 guards in AND, 1 bypass selector, 1 emergency stop, automatic start or manual monitored start, general enabling signal.
4 PNP 4 PNP 344
CS MF202M0-P3Monitoring of 6 guards in AND (2NC contacts), 1 emergency stop, automatic start or manual monitored start.
4 PNP 4 PNP 345
CS MF202M0-P4
Monitoring of 6 guards in AND (1NO+1NC contacts), 1 emergency stop, automatic start or manual monitored start.
4 PNP 4 PNP 346
CS MF202M0-P5
Monitoring of 4 guards with independent outputs, 1 bypass selector, 1 emergency stop, automatic start or manual monitored start, general enabling signal.
4 PNP 4 PNP 347
CS MF202M0-P6
Monitoring of 2 guards, 1 bypass selector, 1 emergency stop, automatic start or manual monitored start, general enabling signal. Three instantaneous outputs and one delayed output with selector switch with 4 times. Selectable On/Off delay.
4 PNP 4 PNP 348
CS MF202M0-P7
Monitoring of 4 guards (AND linked) with switches with guard locking, operating principle “D”, 1 emergency stop, monitored start. Two instantaneous outputs and two delayed outputs with selector switch with 4 times.
4 PNP 4 PNP 349
CS MF202M0-P8
Monitoring of 4 guards in AND with switches with guard locking, operating principle “E”, 1 emergency stop, monitored start. Two instantaneous outputs and two delayed outputs with selector switch with 4 times.
4 PNP 4 PNP 350
CS MF204M0-P10Monitoring of 4 guards in AND (OSSD outputs) and 1 emergency stop with automatic start or manual monitored start.
3 NO 4 PNP 351
Product list
Legend:
Movable guard monitoring Start function Time selector
Monitoring of a movable guard with
lockBypass selector Enabling input
Emergency stop
343
>> out1
>> out2
>> out3
OUTERROR
1
T11
I11
T12
I12
01
Tc=1 s
2NC
OUTERROR
2
T13
I13
T14
I14
02 S2CI
2NC
OUTERROR
3
T21
I21
T22
I22
03 S2CI
2NC
OUTINCONTROL
08
MAN
START
OUTERROR
4
04T23
I23
OUTERROR
5
05T24
I24
A2
A1
O01out1 >>
O02out2 >>
O03out3 >>
O04out4 >>
>> out4
OUT
AND06
IN 1
IN 2IN 3
&
OUTINCONTROL
07
CNT
START
/ AUTO
OUT
OR09
IN 1
IN 2
≥1
14
13
24
23
34
33
AUTO/MAN
CNT
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General Catalogue Safety 2021-2022
Product code
CS MF201M0-P1
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P1
CS MF201M0-P1 pre-programmed module
Technical data: see CS MP201M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions
•Monitoringof2guards•Monitoringof1emergencystop•Automaticstartormonitoredmanualstart
Outputs
•3NOsafetyoutputs•4PNPsignallingoutputs
344
OUTERROR
1
T01
I11
T02
I12
01
Tc=1s
2NC
2
OUTERROR
T03
I13
T04
I14
T01
I15
T02
I16
02 S2CI
2NC
OUTERROR
3
T03
I17
T04
I18
03 S2CI
2NC
OUTERROR
5
T01
I21
T02
I22
05 S2CI
2NC
OUT
ERROR
6
06 S2CI
2NC
OUTINCONTROL
14
MAN
START
OUTERROR
7
08
T01
I25
OUTERROR
8
09T02
I26
OUT
AND12
IN 1IN 2
&
OUT
AND10
IN 1IN 2IN 3IN 4IN 5 & OUTIN
CONTROL
13
CNT
START
/ AUTO
OUT
OR15
IN 1
IN 2
≥10 V
24 V
OS1
OS2
OS3
OS4
OUT
ERROR
4
T03
I23
T04
I24
04
Tc=2s
1NC+1NO
OUT
OR11
IN 1
IN 2
≥1SEL
ASS
ENABLE +24 V OUT
07I27
A2
A1
O01out1 >>
O02out2 >>
O03out3 >>
O04out4 >>
>> out1
>> out2
>> out3
>> out4
AUTO
AUTO/MAN
CNT
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General Catalogue Safety 2021-2022
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P2
Product code
CS MF202M0-P2
CS MF202M0-P2 pre-programmed module
Main functions
•Monitoringof4guards•1bypassselector•1emergencystop•Automaticstartormonitoredmanualstart•Generalenablingsignal
Outputs
•4PNPsafetyoutputs•4PNPsignallingoutputs
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
345
OUTERROR
7
T01
I25
T02
I26
07
Tc=1 s
2NC
OUTERROR
1
T01
I11
T02
I12
01 S2CI
2NC
2
OUTERROR
T03
I13
T04
I14
T01
I15
T02
I16
02 S2CI
2NC
OUTERROR
3
T03
I17
T04
I18
03 S2CI
2NC
OUTERROR
4
T01
I21
T02
I22
04 S2CI
2NC
OUTERROR
5
T03
I23
T04
I24
05 S2CI
2NC
OUTERROR
6
06 S2CI
2NC
OUTINCONTROL
12
MAN
START
OUTERROR
8
08
T03
I27
OUTERROR
9
09T04
I28
OUT
AND10
IN 1IN 2IN 3IN 4IN 5IN 6IN 7
&
OUT
AND14
IN 1IN 2
&
OUT
AND15
IN 1IN 2
&
OUT
AND16
IN 1IN 2
&
OUTINCONTROL
11
CNT
START
/ AUTO
OUT
OR13
IN 1
IN 2
≥10 V
24 V
OS1
OS2
OS3
OS4
A2
A1
O01
O02
O03
O04
>> out1
>> out2
>> out3
>> out4
>> out5
>> out6
out1 >>out2 >>
out3 >>out4 >>
out5 >>out6 >>
AUTO/MAN
CNT
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General Catalogue Safety 2021-2022
Product code
CS MF202M0-P3
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P3
CS MF202M0-P3 pre-programmed module
Main functions
•Monitoringof6guards(2NCcontacts)•1emergencystop•Automaticstartormonitoredmanualstart
Outputs
•4PNPsafetyoutputs•4PNPsignallingoutputs
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
346
OUTERROR
7
T01
I25
T02
I26
07
Tc=1s
2NC
OUTERROR
1
T01
I11
T02
I12
01 S2CI
1NC+1NO
2
OUTERROR
T03
I13
T04
I14
T01
I15
I16
T02
02 S2CI
1NC+1NO
OUTERROR
3
T03
I17
T04
I18
03 S2CI
1NC+1NO
OUTERROR
4
T01
I21
T02
I22
04 S2CI
1NC+1NO
OUTERROR
5
T03
I23
T04
I24
05 S2CI
1NC+1NO
OUTERROR
6
06 S2CI
1NC+1NO
OUTINCONTROL
12
MAN
START
OUTERROR
8
08
T03
I27
OUTERROR
9
09T04
I28
OUT
AND10
IN 1IN 2IN 3IN 4IN 5IN 6IN 7
&
OUTINCONTROL
11
CNT
START
/ AUTO
OUT
OR13
IN 1
IN 2
≥10 V
24 V
OS1
OS2
OS3
OS4
>> out1
>> out2
>> out3
>> out4
>> out5
>> out6
OUT
AND14
IN 1IN 2
&
OUT
AND15
IN 1IN 2
&
OUT
AND16
IN 1IN 2
&
A2
A1
O01
O02
O03
O04
out1 >>out2 >>
out3 >>out4 >>
out5 >>out6 >>
AUTO/MAN
CNT
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General Catalogue Safety 2021-2022
Product code
CS MF202M0-P4
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P4
CS MF202M0-P4 pre-programmed module
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions
•Monitoringof6guards(1NC+1NOcontacts)•1emergencystop•Automaticstartormonitoredmanualstart
Outputs
•4PNPsafetyoutputs•4PNPsignallingoutputs
347
OUTERROR
1
T01
I11
T02
I12
01
Tc=1s
2NC
2
OUTERROR
T03
I13
T04
I14
T01
I15
T02
I16
02 S2CI
2NC
OUTERROR
3
T03
I17
T04
I18
03 S2CI
2NC
OUTERROR
4
T01
I21
T02
I22
05 S2CI
2NC
OUT
ERROR
5
06 S2CI
2NC
OUTERROR
7
07
T01
I25
OUTERROR
8
08T02
I26/ AUTO
0 V
24 V
OS1
OS2
OS3
OS4
ENABLE +24 V OUT
09I27
OUT
ERROR
6
T03
I23
T04
I24
04
Tc=2s
1NC+1NO
SEL
ASS
OUT
OR10
IN 1
IN 2
≥1
OUT
AND12
IN 1IN 2
&
OUT
OR11
IN 1
IN 2
≥1
IN 3
OUT
AND13
IN 1IN 2
&IN 3
OUT
AND14
IN 1IN 2
&IN 3
OUT
AND15
IN 1IN 2
&IN 3
>> out1
>> out2
>> out3
>> out4
A2
A1
O01out1 >>
O02out2 >>
O03out3 >>
O04out4 >>
OUTINCONTROL
17
MAN
START
OUTINCONTROL
16
CNT
START
OUT
OR18
IN 1
IN 2
≥1
OUTINCONTROL
20
MAN
START
OUTINCONTROL
19
CNT
START
OUT
OR21
IN 1
IN 2
≥1
OUTINCONTROL
23
MAN
START
OUTINCONTROL
22
CNT
START
OUT
OR24
IN 1
IN 2
≥1
OUTINCONTROL
26
MAN
START
OUTINCONTROL
25
CNT
START
OUT
OR27
IN 1
IN 2
≥1
AUTO/MAN
CNT
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General Catalogue Safety 2021-2022
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P5
Product code
CS MF202M0-P5
CS MF202M0-P5 pre-programmed module
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions
•Monitoringof4guardswithindependentoutputs•1bypassselector•1emergencystop•Automaticstartormonitoredmanualstart•Generalenablingsignal
Outputs
•4PNPsafetyoutputs•4PNPsignallingoutputs
348
OUTERROR
1
T01
I11
T02
I12
01
Tc=1s
2NC
OUTERROR
2
T03
I13
T04
I14
02 S2CI
1NC+1NO
3
OUTERROR
T01
I15
T02
I16
03 S2CI
1NC+1NO
OUTINCONTROL
13
MAN
START
OUTERROR
7
07T03
I26
OUT
AND11
IN 1IN 2IN 3IN 4
&
OUTINCONTROL
12
CNT
START
/ AUTO
ART
OUT
OR14
IN 1
IN 2
≥1
0 V
24 V
OS1
OS2
OS3
OS4
SEL
ASS
OUTERROR
4
T03
I17
T04
I18
04
Tc=2s
1NC+1NO
SEL
TEMPI
OUTERROR
5
T01
I22
I23
I24
I21
05 SSE8
NumPos=4
OUT
OR10
IN 1
IN 2
≥1
ENABLE +24 V OUT
06I27
DELAY +24 V OUT
09I28
OUT
DELAY
IN
Time=xx s
Delay
15
>> out1
>> out2
>> out3
>> out4
A2
A1
O01out1 >>
O02out2 >>
O03out3 >>
O04out4 >>
ART
CNT
OUTERROR
6
08
T02
I25
BOUTBIN
16 LKTBL
DELAY ON (+24V)
DELAY OFF (0V)
3-6-12-24 sec
AUTO/MAN
CNT
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General Catalogue Safety 2021-2022
Product codeCS MF202M0-P6
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P6
CS MF202M0-P6 pre-programmed module
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions•Monitoringof2guards•1bypass•1emergencystop•Automaticstartormonitoredmanualstart•Generalenablingsignal•SelectableOn/Offdelay•Selectorswitchwith4times
Outputs•Threeinstantaneousoutputsandone
delayed PNP safety output•4PNPsignallingoutputs
349
OUTERROR
1
T01
I11
T02
I12
01
Tc=1s
2NC
OUTERROR
8
08
T04
I27
OUTERROR
6
06T01
I28
OUT
AND09
IN 1IN 2IN 3IN 4IN 5
IN 6 &
OP
OUTERROR
7
T03
I24
I25
I26
I23
07 S2CI
4NO
OUT
PULSE
IN
Time = 1s
10
OUT
NOR13
IN 1
IN 2
OUTERROR
2
T03
I13
T04
I14
02
Tc=0,3s
2NC
OUTERROR
3
T01
I15
T02
I16
03
Tc=0,3s
OUTERROR
4
T03
I17
T04
I18
04
Tc=0,3s
OUTERROR
5
T01
I21
T02
I22
05
Tc=0,3s
OUT
DELAY
IN
Time=xx s
Delay off
12
>> out1
>> out2
>> out3
>> out4
A2
A1
O01out1 >>
O02out2 >>
O03out3 >>
O04out4 >>
SEL
TEMPI
≥1
2NC
2NC
2NC
OUTINCONTROL
11
CNT
START
CNT
0 V
24 V
OS1
OS2
OS3
OS4
BOUTBIN
14 LKTBL
3-6-12-24 sec
CNT
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General Catalogue Safety 2021-2022
Product codeCS MF202M0-P7
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P7
CS MF202M0-P7 pre-programmed module
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions•Monitoringof4guardswithswitches
with guard locking, operating principle “D” (guard locked if solenoid is de-energised)
•1emergencystop•Monitoredstart
Outputs•2instantaneousoutputsand2delayed
PNP safety outputs with selector switch with 4 times
•4PNPsignallingoutputs•OS4outputfordoorlockingcontrol
350
OUTERROR
1
T01
I11
T02
I12
01
Tc=1s
2NC
OUTERROR
8
08
T04
I27
OUTERROR
6
06T01
I28
OUT
AND09
IN 1IN 2IN 3IN 4IN 5
IN 6 &
OP
OUTERROR
7
T03
I24
I25
I26
I23
07 S2CI
4NO
OUT
PULSE
IN
Time = 1 s
10
OUT
OR13
IN 1
IN 2
OUTERROR
2
T03
I13
T04
I14
02
Tc=0,3s
2NC
OUTERROR
3
T01
I15
T02
I16
03
Tc=0,3s
OUTERROR
4
T03
I17
T04
I18
04
Tc=0,3s
OUTERROR
5
T01
I21
T02
I22
05
Tc=0,3s
OUT
DELAY
IN
Time=xx s
Delay off
12
>> out1
>> out2
>> out3
>> out4
A2
A1
O01out1 >>
O02out2 >>
O03out3 >>
O04out4 >>
SEL
TEMPI
≥1
2NC
2NC
2NC
OUTINCONTROL
11
CNT
START
CNT
0 V
24 V
OS1
OS2
OS3
OS4
BOUTBIN
14 LKTBL
3-6-12-24 sec
CNT
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General Catalogue Safety 2021-2022
CS MF202M0-P8 pre-programmed module
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
Application program: P8
Product codeCS MF202M0-P8
Technical data: see CS MP202M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions•Monitoringof4guardswithswitches
with guard locking, operating principle “E” (guard locked if solenoid is energised)
•1emergencystop•Monitoredstart
Outputs•2instantaneousoutputsand2delayed
PNP safety outputs with selector switch with 4 times
•4PNPsignallingoutputs•OS4outputfordoorlockingcontrol
351
00 S2CD
T11
I15
T12
I16
XOUT
XFAULT
2NC
1 sec
2NC
0.02 sec
01 S2ED
XOUT
XFAULT
l17
l18
04 ERROR
00
O01
O02
O03
O04
AND
Xln
Xln0 XOut
Xln1
Xln2
Xln3
Xln4
Err=1
05 ERROR
Xln
Err=2
06 ERROR
Xln
Err=3
GUARD 1
GUARD 1
GUARD 2
GUARD 3
GUARD 4
GUARD 2XOUT
XFAULT
XOUT
XFAULT
XOUT
XFAULT
XOUT
XFAULT
XOUT
XFAULT
2NC
0.02 sec
02 S2ED
l21
l22
2NC
0.02 sec
03 S2ED
l23
l24
2NC
0.02 sec
04 S2ED
l25
l26
05 S1C
T13
l27
06 S1C
T14
I28
GUARD 3
GUARD 4
07 ERROR
Xln
Err=4
08 ERROR
Xln
Err=5
09 ERROR
01 START
CNT
MAN
03 OR
02 START
Xln
Err=6
10 ERROR
Xln
Err=7
GUARD 1
GUARD 2
GUARD 3
GUARD 4
Xln
XStart
Xln
XStart
XOut
Xln0
Xln1
XOut 13
14
23
24
33
34
AUT/MAN
CNT
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General Catalogue Safety 2021-2022
CS MF204M0-P10 pre-programmed module
Product codeCS MF204M0-P10
Technical data: see CS MP204M0Dimensions, cable cross sections, terminal tightening torque: page 355, design CInternal block diagram: page 358Terminal layout: page 358
Main functions•Monitoringof4guardsinAND(OSSD
outputs)•1emergencystop•Automaticstartormonitoredmanual
start
Outputs
• 3 NO safety outputs•4PNPsignallingoutputs
Application program: P10
The application program stored in the module executes one or more safety functions, as shown in the following block diagram:
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Notes
353
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General Catalogue Safety 2021-2022
Application program: The internal software component of this module which is aimed at the application.“Power On” state: The device state, which lasts from the time it is switched on until the end of the internal controls.“Run” state: The device state on completion of the “Power-On” phase (if no errors have been detected) in which the Application program is run.“Error” state: The device state when a fault is detected. In this state, the module switches to the safe state, i.e., all safety outputs are open.Fault: A fault can be internal or external to the safety module. Internal faults are autonomously detected by the module thanks to its redundant and self-monitored structure. An external fault can be detected by the application program. It follows that the definition of external fault is strictly dependent on the application (see note A).
Definitions
Operation
When supplied with power, the module enters the Power-On state and runs an internal self-diagnosis. In this phase, the two processor LEDs (P1, P2) remain illuminated red for about 1 second. If the internal tests are completed without malfunction, the two LEDs are switched off, the module enters the Run state, and runs the application program. If the start tests are not passed, the module enters the Error state and the malfunction is indicated by the processor LEDs remaining illuminated red.The green LEDs relating to the power supply and the module inputs are not controlled by processors, and they immediately begin indicating the states of the respective inputs/outputs.When the module is in the RUN state, and no faults are detected, the two LEDs (P1, P2) remain switched off.In the Run state, the module can detect faults external to the module, for example caused by short circuits, or invalid input states (see note A). Depending on the fault type detected, the application program may place the module in error state, to indicate the malfunction. In this case, the application program can communicate an error code by making the LEDs (P1, P2) flash in sequence.During the Run state, simultaneously with application program execution, the module constantly runs a series of internal tests to check for correct hardware operation. If a malfunction is detected, the module state changes to Error.Once in Error state, the module is placed in a safe condition, that is with all the safety outputs open; the application program is no longer evaluated, and neither are the system inputs. Furthermore, the semiconductor signalling outputs are left unaltered (changes in inputs do not affect them) at the value imposed by the application program before entering the error state. To reset the module, just switch it off for the required duration (see technical data) and then switch it on again.
n
TnOUTIN
CONTROL
09
MAN
START
OUT
ERROR
02 S2CI
2NC
OSn
On
n
Note A: A short circuit is not always a fault. For example, in the case of an ordinary push button for emergency stops equipped with two NC contacts, contact opening is the signal to be evaluated and a short circuit between the two contacts is a fault. In contrast, in the case of a safety mat with 4-wire technology, the opposite is true, i.e. a short circuit between the wires is the signal to be evaluated whereas wire interruption is a fault.
LED
PWR
LED
P1 and P2
Possible fault cause
Off OffNo power supply, incorrect connections, power wires cut, external fuses broken.Module fault.
Green Off Normal operation.
Green RedNon-restorable fault.Recommended action: Send module for repair.
GreenRed x 1
Blue x 1
))) 1
))) 1
Restorable fault: Overcurrent on Tx or Ox outputs.Recommended action: Disconnect the semiconductor signalling outputs (Ox) and the test outputs (Tx) to check whether an external short circuit is present.
GreenRed x 1
Blue x 2
))) 1
))) 2
Restorable fault. Problem detected on OSx (short circuit towards earth or positive pole, or else short circuit between two OSx).Suggested action: Disconnect the safety outputs to check if there are any problems on the external connections of the OSx outputs.
GreenRed x 1
Blue x 3
))) 1
))) 3Restorable fault. Module temperature outside the limits.Recommended action: Restore module temperature to within permissible limits.
Green Blue x N ))) N
Module entered Error state at the request of the application program. Error code N. Typically due to incorrect input conditions (external short circuits, status not permitted).Recommended action: Disconnect the inputs to find any short circuits. Check the documentation supplied with the application program for further details.
Fault signalling
Notes: The positions of the contacts shown in the diagram are shown only as examples, and they refer to expected working conditions, with machinery in operation, guards closed, and safety devices not activated. For further explanations, please see documentation relating to each specific safety function (page 339).
Input terminal n Semiconductor signalling output n
If enabled, places module in Error state with error code n(see Operation)
ID Type
Parameters
Legend
Semiconductor safety output n
ID Type
ParametersRelay safety output n
Test signal terminal n
Sensors Functions
Utilization requirements
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General Catalogue Safety 2021-2022
SENSORS
Sensor S1C Monitoring of one contact
Outputs OUT The OUT output is active when the input is closed and there is no error
ERROR The ERROR output is active in the case where an electrical malfunction is detected in the input signal
Parameters None
Examples Start button; Stop button; Simple contact
Sensor S1S Monitoring of one static signal
Outputs OUT The OUT output is active if 24 Vdc is applied to the input
Parameters None
Examples Generic sensors with PNP output; Enabling signals
Sensor S2CD Monitoring of two dependent contacts
Outputs OUT The OUT output is active when both inputs are in normal or safety state and there is no error
ERROR The ERROR output is active in the case where simultaneity times are not respected, or in the case where an electrical malfunction is detected at the input signals
Parameters 2NC / 1NO+1NC Contact position in normal or safety state
Tc Max. time of simultaneity in seconds
Examples Emergency stop button; Rope switch; Switch with two linked contacts; Mode selector with two settings, changeover; Two individual switches with a time dependency
Sensor S2CI Monitoring of two independent contacts
Outputs OUT The OUT output is active when both inputs are in normal or safety state and there is no error
ERROR The ERROR output is active in the case where an electrical malfunction is detected in the input signals
Parameters 2NC / 1NO+1NC Contact position in normal or safety state
Examples Two switches; Magnetic sensor
Sensor SSE8 Mode selector with 2 to 8 positions
Outputs OUT The output gives a numerical value of 1 to 8 corresponding to the active input, 0 in case of error
ERROR The ERROR output is active if multiple inputs are active or if no input is active, or if an electrical failure is detected in the input signals
Parameters NumPos Number of input signals (2 to 8)
Examples Mode selectors with a common contact and between 2 and 8 outputs
Quick description of the main safety functions (CS MF•••••)
FUNCTIONS
Function AND AND logical function
Outputs OUT The OUT output is only active if all IN input signals are present
Function DELAY Delayed process activation/deactivation
Outputs OUT The OUT output is activated if a signal is present at the IN input with a delay of Td (parameter type Don) If the signal at the IN input drops out, the OUT output is deactivated with a delay of Td (parameter type Doff)
ParametersDon / Doff Delay type, Don (delay on) on activation or Doff (delay-off) on cut-off
Td Length of delay on activation or cut-off
Function NOR NOR logical function
Outputs OUT The OUT output is only active in the absence of all IN input signals
Function OR OR logical function
Outputs OUT The OUT output is only active if at least one IN input signal is present
Function PULSE Activation of a process for a short time
Outputs OUT The OUT output is activated on the IN signal falling edge and remains active for the time set by Tp
Parameters Tp Pulse duration
Function START Activation of a process
Outputs OUT The OUT output is activated by the edge (see parameters) of the CONTROL signal if the IN input signal is present. Thus, it remains active as long as the signal is present at IN
Parameters MAN / CNT MAN = activation on rising edge, CNT = activation on falling edge
Function LKTBL Lookup table; Conversion table between data of the same type
Outputs BOUT Converted data at output. Initial value = 0.
Parameters Number of data Number of data present in the table
Disclaimer:Subject to modifications without prior notice and errors excepted. The data given in this sheet are accurately checked and refer to typical mass production values. The device descriptions and its applications, the fields of application, the external control details, as well as information on installation and operation, are provided to the best of our knowledge. This does not in any way mean that the characteristics described may entail legal liabilities extending beyond the “General Terms of Sale”, as stated in the Pizzato Elettrica general catalogue. The customers/user is required to read our information and recommendations as well as the pertinent technical provisions before using the products for his own purposes.
355
111.5
114
99
22.5
111.5
114
99
22.5 111.5
114
110.5
22.5
102.5
128.5
12622.5
128.5
22.5
11
7.5
126
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General Catalogue Safety 2021-2022
Screw terminals
Connector with screw terminals
Connector with spring terminals
Connector with screw terminals
Connector with spring terminals
Design A, housing width 22.5 mm
Connection data
Terminal tightening torque: 0.5 … 0.6 NmCable cross section: 0.2…2.5 mm2
24…12 AWG Installation
Snap-mounting on DIN rails
Dimensional drawings, housings features
Design B, housing width 22.5 mm
Connection data
Terminal tightening torque: 0.5 … 0.6 NmCable cross section: 0.2…2.5 mm2
24…12 AWG Installation
Snap-mounting on DIN rails
All values in the drawings are in mm
356
111.5
114
99
45
45 111.5
114
99
111.5
114
11
0.5
45
11
0.5
88.5
91
22.5
22.5
99
88.5
91
88.5
91
99
22.5
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General Catalogue Safety 2021-2022
Design C, housing width 45 mm
Screw terminals
Connector with screw terminals
Connector with spring terminals
Connection data
Terminal tightening torque: 0.5 … 0.6 NmCable cross section: 0.2…2.5 mm2
24…12 AWG Installation
Snap-mounting on DIN rails
Screw terminals
Connector with screw terminals
Connector with spring terminals
Design D, housing width 22.5 mm
Connection data
Terminal tightening torque: 0.5 … 0.6 NmCable cross section: 0.2…2.5 mm2
24…12 AWG Installation
Snap-mounting on DIN rails
All values in the drawings are in mm
357
67.5 111.5
114
99
111.5
114
11
0.5
67.5
10
111.5
114
11
0.5
90
90 111.5
114
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General Catalogue Safety 2021-2022
Dimensional drawings, housings features
Design E, housing width 67.5 mm
Screw terminals Connector with spring terminals
Connection data
Terminal tightening torque: 0.5 … 0.6 NmCable cross section: 0.2…2.5 mm2
24…12 AWG Installation
Snap-mounting on DIN rails
Design F, housing width 90 mm
Screw terminals Connector with spring terminals
Connection data
Terminal tightening torque: 0.5 … 0.6 NmCable cross section: 0.2…2.5 mm2
24…12 AWG Installation
Snap-mounting on DIN rails
All values in the drawings are in mm
358
PWR
O01 O02
I21
O03 O04
K1 K2
I23
P2P1 I11
I13
I22
I24
I12
I14
T23 T24 I24I23
T21 T22 I22I21
T13 T14 I14I13
T11 T12 I12I1123 3313
24 3414
O01 O02 O03 O04
A1 A2 24V 0V
CS MF201
PWR
O01 O02
I21 I22
O03 O04
OS1 OS2 OS3 OS4
I25 I26
P2P1 I11 I12
I15 I16
I23
I27
I13
I17
I24
I28
I14
I18
I25 I27 I28I26
I21 I23 I24I22
I15 I17 I18I16
I11 I13 I14I12T01 T03 T04T02
OS1 OS3 OS4OS2
O01 O02 O03 O04
A1 A2 24V 0V
CS MF202
PWR
O01 O02 O03 O04
K1 K2
P2P1
I25 I27 I28I26
I25 I27 I28I26
I21 I23 I24I22
I21 I23 I24I22
I15 I17 I18I16
I15 I17 I18I16
T11 T13 T14T1223 3313
24 3414
O01 O02 O03 O04
A1 A2 24V 0V
CS MF204
CS MF201 CS MF202 CS MF204
P1
P2
T12 ... T24T11 I12 ... I24I11A1
A2 O02 ... O04O01
13 23
14 24
33
340V
24V
K2
K1P1
P2
T02 ... T04T01 I12 ... I28I11A1
OS2OS10V OS3A2 O02 ... O04O01 OS4
24V
CS MF201 CS MF202
P1
P2
T12 ... T14T11 I16 ... I28I15A1
A2 O02 ... O04O01
13 23
14 24
33
340V
24V
K2
K1
CS MF204
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General Catalogue Safety 2021-2022
Pin assignment CS MF series
CS MF series internal block diagram