Pepperl+Fuchs HiC283 Series Скачать руководство пользователя страница 8

 2

02

1-

12

8

Functional Safety HiC283*

Product Description

2

Product Description

2.1

Function

General

This isolated barrier is used for intrinsic safety applications.
The device transfers digital signals from NAMUR sensors or dry contacts from the hazardous 

area to the non-hazardous area.
Via switches the mode of operation can be reversed and the line fault detection 

can be switched off.
This device mounts on a HiC termination board.

HiC2831 and HiC2832

The input controls two passive transistor outputs with a resistive output characteristic 

(acc. to EN60947-5-6).
The outputs have three defined states: low impedance state: 1-signal = 1.8 k

high impedance state: 0-signal = 14 k

 and fault > 100 k

.

This output characteristic offers line fault transparency on the signal lines.

HiC2831R1 and HiC2832R1

The input controls two passive transistor outputs with a resistive output characteristic.
The outputs have three defined states: 1-signal = 6.5 V voltage drop, 

high impedance state: 0-signal = 33 k

 and 6.5 V voltage drop and fault > 100 k

.

This output characteristic offers line fault transparency on the signal lines.

HiC2831R2 and HiC2832R2

The input controls two passive transistor outputs with a resistive output characteristic.
The outputs have three defined states: low impedance state: 1-signal = 5 k

high impedance state: 0-signal = 15 k

 and fault > 100 k

.

This output characteristic offers line fault transparency on the signal lines.

HiC2831R3 and HiC2832R3

The input controls two passive transistor outputs with a resistive output characteristic.
The outputs have three defined states: low impedance state: 1-signal = 100

to 600

high impedance state: 0-signal = 19 k

 and fault > 100 k

.

This output characteristic offers line fault transparency on the signal lines.

HiC2831R4 and HiC2832R4

The input controls two passive transistor outputs with a resistive output characteristic.
The outputs have three defined states: low impedance state: 1-signal = 472

high impedance state: 0-signal = 1.4 k

 and fault > 100 k

.

This output characteristic offers line fault transparency on the signal lines.

HiC2831R5 and HiC2832R5

The input controls two passive transistor outputs with a resistive output characteristic.
The outputs have three defined states: low impedance state: 1-signal = 8.8 k

high impedance state: 0-signal = 45.5 k

 and fault > 100 k

.

This output characteristic offers line fault transparency on the signal lines.

Содержание HiC283 Series

Страница 1: ...ISO9001 2 Functional Safety Switch Amplifier HiC283 Manual...

Страница 2: ...ion as well as the supplementary clause Expanded reservation of proprietorship Worldwide Pepperl Fuchs Group Lilienthalstr 200 68307 Mannheim Germany Phone 49 621 776 0 E mail info de pepperl fuchs co...

Страница 3: ...terfaces 9 2 3 Marking 9 2 4 Standards and Directives for Functional Safety 9 3 Planning 10 3 1 System Structure 10 3 2 Assumptions 11 3 3 Safety Function and Safe State 12 3 4 Characteristic Safety V...

Страница 4: ...Functional Safety HiC283 Contents 4 2021 12...

Страница 5: ...Dismounting Disposal The documentation consists of the following parts Present document Instruction manual Manual Datasheet Additionally the following parts may belong to the documentation if applicab...

Страница 6: ...derstood the instruction manual and the further documentation Intended Use The device is only approved for appropriate and intended use Ignoring these instructions will void any warranty and absolve t...

Страница 7: ...splayed in descending order as follows Informative Symbols Action This symbol indicates a paragraph with instructions You are prompted to perform an action or a sequence of actions Danger This symbol...

Страница 8: ...signal lines HiC2831R2 and HiC2832R2 The input controls two passive transistor outputs with a resistive output characteristic The outputs have three defined states low impedance state 1 signal 5 k hi...

Страница 9: ...tions see datasheet Pepperl Fuchs Group Lilienthalstra e 200 68307 Mannheim Germany Internet www pepperl fuchs com HiC2831 HiC2832 HiC2831R1 HiC2832R1 HiC2831R2 HiC2832R2 HiC2831R3 HiC2832R3 HiC2831R4...

Страница 10: ...y the demand rate for this safety loop is assumed to be higher than once per year The relevant safety parameters to be verified are the PFH value Probability of dangerous Failure per Hour Fault reacti...

Страница 11: ...ence A similar factor must be used if frequent temperature fluctuations are expected Do not use more than one input channel of a multi channel device for a safety loop as the channels of the device us...

Страница 12: ...ent is present at input I output I and output II are high impedant safe state Table 3 1 Switch settings HiC2831 Switch Position Function Channel I S1 II Normal mode of operation If a low current is pr...

Страница 13: ...te Reaction Time The response time for the safety function between input and output is 0 1 ms Load conditions HiC283 8 V 1 k HiC283 R1 24 V 2 k HiC283 R2 24 V 250 HiC283 R3 24 V 4 2 k HiC283 R4 10 mA...

Страница 14: ...years MTBF 1 HiC2832 120 years PTC 99 Safety function Inverse mode of operation 2 2 The device can be used in two modes of operation inverse of mode operation and normal mode of operation Normal mode...

Страница 15: ...and that the validity of the calculation is limited to the useful lifetime of each component It is assumed that early failures are detected to a huge percentage during the installation and therefore...

Страница 16: ...ck the safety function to ensure the expected output behavior 4 1 Configuration Configuring the Device The device is configured via DIP switches The DIP switches for setting the safety functions are o...

Страница 17: ...ction of the subsystem at periodic intervals depending on the applied PFDavg in accordance with the characteristic safety values See chapter 3 4 It is under the responsibility of the plant operator to...

Страница 18: ...B 150 k lead breakage detection The device must detect an external fault This state is indicated by red LED and the output of the corresponding channel must be in fault state 6 Test the outputs with a...

Страница 19: ...er I Multimeter I R U Multimeter I R U Fault 10a 9a 12 15 5a 5b 1 4 SL2 8a SL1 7a 11 14 Supply Supply 24 V DC Power supply I supply Supply Bus RLB RSC Termination Board Zone 0 1 2 Div 1 2 Zone 2 Div 2...

Страница 20: ...2 Div 1 2 Zone 2 Div 2 Multimeter I Multimeter I R U Multimeter I R U Fault 10a 9a 12 15 5a 5b 1 4 SL2 8a SL1 7a 11 14 Supply Supply 24 V DC Power supply I supply Supply Bus RLB RSC Termination Board...

Страница 21: ...er supply I supply Supply Bus RLB RSC Termination Board Zone 0 1 2 Div 1 2 Zone 2 Div 2 Multimeter I Fault 10a 9a 12 15 5a 5b 1 4 SL2 Multimeter I 1a 1b 2 5 8a SL1 7a 11 14 Multimeter I I Multimeter U...

Страница 22: ...ct always replace the device with an original device Reporting Device Failure If you use the device in a safety loop according to IEC EN 61508 it is required to inform the device manufacturer about po...

Страница 23: ...ety loop total safety function Probability of failure of components that are in the safety loop HFT Hardware Fault Tolerance MTBF Mean Time Between Failures MTTR Mean Time To Restoration PCS Process C...

Страница 24: ...Pepperl Fuchs Quality Download our latest policy here www pepperl fuchs com quality www pepperl fuchs com Pepperl Fuchs Subject to modifications Printed in Germany DOCT 2386F...

Отзывы: