6350V102

Displays
Programmable displays with a wide selection of inputs and outputs for display of temperature,
volume and weight, etc. Feature linearisation, scaling,
and difference measurement functions for programming
via PReset software.
Ex interfaces Interfaces for analogue and digital
signals as well as HART® signals between sensors / I/P
converters / frequency signals and control systems in Ex
zone 0, 1 & 2 and for some modules in zone 20, 21 & 22.
DK Side 1
Isolation
Galvanic isolators for analogue and digital
signals as well as HART® signals. A wide product range
with both loop-powered and universal isolators featuring
linearisation, inversion, and scaling of output signals.
UK Page 17
FR Page 33
Temperature A wide selection of transmitters for DIN
form B mounting and DIN rail modules with analogue
and digital bus communication ranging from applicationspecific to universal transmitters.
Universal
PC or front programmable modules with
universal options for input, output and supply. This range
offers a number of advanced features such as process
calibration, linearisation and auto-diagnosis.
DE Seite 49
6350
PROF IBUS ® PA / FOUNDATION ™ Fi eld bus Transmitter
No. 6350V102-IN (0915)
F r o m s e r. n o . 0 3 0 1 4 5 0 0 1
SIGNALS THE BEST
PROFIBUS® PA / FOUNDATION™ FIELDBUS
TRANSMITTER
PRetrans 6350
Indholdsfortegnelse
Sikkerhedsinstruktion .........................................................
EF-overensstemmelseserklæring .......................................
Anvendelse .........................................................................
Teknisk karakteristik ...........................................................
Montage / installation .........................................................
Applikationer ......................................................................
Bestillingsskema.................................................................
Elektriske specifikationer ...................................................
Tilslutninger, indgange:
RTD og modstand ..........................................................
Tilslutninger, indgange:
Modstand, potentiometer, bipolar mA og mV ................
Tilslutninger, indgange:
Termoelementer ..............................................................
Tilslutninger, udgange:
Bustilslutninger ...............................................................
Blokdiagram .......................................................................
Bus-installation ...................................................................
Appendix:
FM og CSA - Installation Drawing No. 6350QE02 .............
2
3
4
4
4
5
6
6
12
13
14
14
15
16
65
1
Sikkerhedsinstruktion
Ex-installation:
For sikker installation af 6350B i eksplosionsfarligt område skal følgende
overholdes. Installation må kun foretages af kvalificeret personale, der er
bekendt med de nationale og internationale love, direktiver og standarder, der
gælder for området.
Produktionsår fremgår af de to første cifre i serienummeret.
For installationsanvisninger og Ex-data henvises til ATEX-certifikater og Installation Drawing No. 6350QE02.
EF-OVERENSSTEMMELSESERKLÆRING
Som producent erklærer
PR electronics A/S
Lerbakken 10
DK-8410 Rønde
hermed at følgende produkt:
Type: 6350
Navn: PROFIBUS® PA / FOUNDATIONTM Fieldbus transmitter
er i overensstemmelse med følgende direktiver og standarder:
EMC-direktivet 2004/108/EF og senere tilføjelser
EN 61326-1 : 2006
For specifikation af det acceptable EMC-niveau henvises til modulets
elektriske specifikationer.
ATEX-direktivet 94/9/EF og senere tilføjelser
EN 50014 : 1997, EN 50020 : 2002, EN 50021 : 1999,
EN 50281-1-1 : 1998 og EN 50284 : 1999
ATEX-certifikat: KEMA 03ATEX1013 X (6350A)
ATEX-certifikat: KEMA 03ATEX1012 (6350B)
Der kræves ingen ændringer i produktet for at opnå overensstemmelse med de
nye standarder:
EN 60079-0 : 2006 og EN 60079-11 : 2007
Bemyndiget organ
KEMA Quality B.V. (0344)
Utrechtseweg 310, 6812 AR Arnhem
P.O. Box 5185, 6802 ED Arnhem
The Netherlands
Rønde, 17. april 2009
2
Peter Rasmussen
Producentens underskrift
3
PROFIBUS® PA / FOUNDATION™ FIELDBUS
TRANSMITTER - PRetrans 6350
•
•
•
•
•
eller
RTD og modstand til
bus-kommunikation
PROFIBUS® PA ver. 3.0
FOUNDATION™ Fieldbus ver. ITK 4.6
Automatisk protokol-switch
FISCO-certificeret
1- eller 2-kanals version
TC til
bus-kommunikation
Anvendelse:
• Temperaturlineariseret måling med RTD- eller termoelementføler.
+
• Konverterer analoge mA-signaler til digitalværdier på buskommunikationen.
-
• Differens-, redundans- eller gennemsnitstemperaturmåling med RTD- eller
termoelementføler.
• Lineær modstand, potentiometer og bipolar mV-måling.
Konvertering af mA til
bus-kommunikation
Teknisk karakteristik:
• Bustransmitter med både PROFIBUS® PA og FOUNDATION™ Fieldbus kommunikation. En unik switchfunktion sørger for automatisk skift mellem protokollerne.
• Opsætning til PROFIBUS® PA kan ske via Siemens Simatic® PDM®, ABB
Melody / Harmony og Metso DNA software og til FOUNDATION™ Fieldbus via
Emerson DeltaV, Yokogawa CS 1000 / CS 3000, ABB Melody / Harmony og
Honeywell Experion software.
mV til
bus-kommunikation
• Indbygget „Simulation mode“-funktion.
+
• Polaritetsuafhængig bustilslutning.
-
• 24 bit A/D konverter sikrer høj opløsning.
• PROFIBUS® PA funktionsblokke: 2 analoge.
• FOUNDATION™ Fieldbus funktionsblokke: 2 analoge og 1 PID.
• FOUNDATION™ Fieldbus funktionalitet: LAS eller Basic.
Differens, redundans eller
middel; RTD, TC eller mV
1
+
2
-
+
-
1
1
4
+
2
• Monteres på DIN-skinne, vertikalt eller horisontalt. Med 2-kanals versionen
kan der installeres 84 kanaler pr. meter.
-
2
-
Montage / installation:
+
5
Basisværdier
Elektriske specifikationer:
Specifikationsområde:
-40°C til +60°C
Fælles specifikationer:
Forsyningsspænding DC
Standard ................................................. 9,0...32 V
ATEX, FM og CSA ................................... 9,0...30 V
Egetforbrug pr. kanal ................................... < 11 mA
Isolationsspænding, test ............................. 1,5 kVAC i 60 s
Isolationsspænding, drift ............................. 50 VRMS / 75 VDC
Opvarmningstid ........................................... 30 s
Signal- / støjforhold ..................................... Min. 60 dB
Reaktionstid (programmerbar) .................... 1...60 s
Reaktionstid (buskommunikation) ............... 100 ms
Signaldynamik, indgang .............................. 24 bit
Kalibreringstemperatur ................................ 20...28°C
Nøjagtighed, størst af generelle og basisværdier:
Indgangstype
Basisnøjagtighed
Temperaturkoefficient
Pt100 og Pt1000
≤ ±0,1°C
≤ ±0,002°C / °C
Ni100...Ni1000
≤ ±0,15°C
≤ ±0,002°C / °C
Cu10
≤ ±1,3°C
≤ ±0,02°C / °C
Lin. R
≤ ±0,05 Ω
≤ ±0,002 Ω / °C
mA
≤ ±1 µA
≤ ±0,06 µA / °C
mV
≤ ±10 µV
≤ ±0,2 µV / °C
TC-type:
E, J, K, L, N, T, U
≤ ±0,5°C
≤ ±0,010°C / °C
TC-type:
B, R, S, W3, W5
≤ ±1°C
≤ ±0,025°C / °C
EMC-immunitetspåvirkning ............................ < ±0,1% af visning
Udvidet EMC-immunitet:
NAMUR NE 21, A kriterium, gniststøj .............< ±1% af visning
Virkning af forsyningsspændingsændring .......................................................
Ledningskvadrat (max.) ...............................
Klemskruetilspændingsmoment ..................
Luftfugtighed ...............................................
Mål (H x B x D) ............................................
DIN-skinne type...........................................
Kapslingsklasse ...........................................
Vægt (1 / 2 kanaler) .....................................
< 0,005% af visning / VDC
1 x 2,5 mm2 flerkoret ledning
0,5 Nm
< 95% RH (ikke kond.)
109 x 23,5 x 104 mm
DIN 46277
IP20
145 / 185 g
Elektriske specifikationer, indgang:
Generelle værdier
Indgangstype
Absolut
nøjagtighed
Temperaturkoefficient
mA
≤ ±0,05% af visning
≤ ±0,003% af visning / °C
Øvrige
≤ ±0,05% af visning
≤ ±0,002% af visning / °C
RTD- og lineær modstandsindgang:
RTDtype
Min.
værdi
Max.
værdi
Standard
Pt25...Pt1000
Ni25...Ni1000
Cu10...Cu1000
Lin. modstand
Potentiometer
-200°C
-60°C
-200°C
0Ω
0Ω
+850°C
+250°C
+260°C
10 kΩ
100 kΩ
IEC 60751 / JIS C 1604
DIN 43760
α = 0,00427
-
Kabelmodstand pr. leder ............................. 50 Ω
6
7
Følerstrøm ...................................................
Virkning af følerkabelmodstand (3- / 4-leder)..
Følerfejlsdetektering ....................................
Kortslutningsdetektering .............................
Bipolar strømindgang:
Måleområde ................................................
Indgangsmodstand .....................................
Kabelbrudsdetektering (4...20 mA) .............
Bipolar mV-indgang:
Måleområde ................................................
Min. måleområde (span)..............................
Indgangsmodstand .....................................
Kortslutningsdetektering .............................
TC-indgang:
-100...+100 mA
10 Ω + PTC < 20 Ω
< 0,3 mA
-800...+800 mV
2,5 mV
10 MΩ
< 3 mV
Type
Min.
værdi
Max.
værdi
Standard
B
E
J
K
L
N
R
S
T
U
W3
W5
Ekst. CJC
+400°C
-100°C
-100°C
-180°C
-200°C
-180°C
-50°C
-50°C
-200°C
-200°C
0°C
0°C
-40°C
+1820°C
+1000°C
+1200°C
+1372°C
+900°C
+1300°C
+1760°C
+1760°C
+400°C
+600°C
+2300°C
+2300°C
+135°C
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
ASTM E988-90
ASTM E988-90
IEC60751
Koldt loddestedskomp. (CJC) .....................
Følerfejlsdetektering ....................................
Følerfejlsstrøm:
under detektering ....................................
ellers ........................................................
Kortslutningsdetektering .............................
Udgang:
PROFIBUS® PA tilslutning:
PROFIBUS® PA protokol ..............................
PROFIBUS® PA protokolstandard ................
PROFIBUS® PA adresse (ved levering) ........
PROFIBUS® PA funktionsblokke ..................
8
Nom. 0,2 mA
< 0,002 Ω / Ω
Ja
< 15 Ω
< ±0,5 °C
Ja
Nom. 2 µA
0 µA
< 3 mV
FOUNDATIONTM Fieldbus tilslutning:
FOUNDATIONTM Fieldbus protokol .................
FOUNDATIONTM Fieldbus protokol-standard ..
FOUNDATIONTM Fieldbus funktionalitet ..........
FOUNDATIONTM Fieldbus version ...................
FOUNDATIONTM Fieldbus funktionsblokke .....
EEx- / I.S.-godkendelse:
Vejledning i sikker installation:
Installation Drawing No. ..........................
EEx- / I.S.-godkendelse - 6350A:
FF protokol
FF designspecifikationer
LAS eller Basic
ITK 4.6
2 analoge og 1 PID
6350QE02
KEMA 03ATEX1013 X..................................
II 3 G
EEx nA [L] IIC T4...T6
ATEX, må anvendes i zone.......................... 2
FM og CSA, må anvendes i ........................ Class I, Div. 2, Group A, B, C, D
Class I, Zone 2, Group IIC
Ex- / I.S.-data:
6350A
Zone 2, EEx nA [nL] IIC
Division 2, ikke
antændingsfarlig
Enhed
Ingen
barriere
Ui
T1...T4
T5
T6
32 VDC
Tomg. < 85°C
Tomg. < 75°C
Tomg. < 60°C
Følerindgang, terminal 41, 42, 43 og 44 og (51, 52, 53 54):
U o ................................................................ : 5,7 VDC
I o ................................................................. : 8,4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
EEx- / I.S.-godkendelse - 6350B:
Profil A&B, ver. 3.0
EN 50170 vol. 2
126
2 analoge
KEMA 03ATEX1012 .....................................
II 1 GD or II 2 (1) GD
EEx ia IIC T4...T6 eller
EEx ib [ia] IIC T4...T6
FISCO
9
ATEX, må anvendes i zone.......................... 0, 1, 2, 20, 21 eller 22
FM og CSA, må anvendes i ........................ IS, Cl. I, Div. 1, Group A, B, C, D
IS, Cl. I, Div. 2, Group A, B, C, D
Class I, Zone 0/1, Group IIC
FISCO
Ex- / I.S.-data:
Max. omgivelsestemperatur er afhængig af den tilsluttede barrieres Po.
Signaludgang / forsyning, terminal 11 til 12 og (21 til 22):
6350B
Zone 0, EEx ia IIC, Entity / Fisco
IS, Class I, Division 1, Group A, B, C, D
Entity / Fisco
Barriere med Barriere med Kan anvendes Kan anvendes
Po < 0,84 W Po < 1,3 W i FISCO-systemer i FISCO-systemer
30 VDC
Ui
30 VDC
17,5 VDC
15 VDC
120 mADC
Ii
300 mADC
250 mADC
Alle
Pi
0,84 W
1,3 W
2,0 W
Alle
Li
1 µH
1 µH
1 µH
1 µH
Ci
2,0 nF
2,0 nF
2,0 nF
2,0 nF
T1...T5 Tomg. < 60°C Tomg. < 60°C Tomg. < 60°C Tomg. < 60°C
T6
Tomg. < 60°C Tomg. < 45°C Tomg. < 45°C Tomg. < 45°C
Enhed
6350B
Zone 1, EEx ib IIC, Entity / Fisco
IS, Class I, Division 2, Group A, B, C, D
Entity / Fisco
Enhed
Barriere med
Po < 5,32 W
FISCO segmentkobler
Ui
Ii
Pi
Li
Ci
T1...T6
30 VDC
250 mADC
5,32 W
1 µH
2,0 nF
Tomg. < 60°C
17,5 VDC
Alle
Alle
1 µH
2,0 nF
Tomg. < 60°C
10
Følerindgang, terminal 41, 42, 43, 44 og (51, 52, 53 54)
U o ............................................................... : 5,71 VDC
I o ................................................................. : 8,4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
Strømindgang, terminal 13, 14 og (23, 24)
U i ................................................................. :
I i .................................................................. :
Pi ................................................................. :
L i ................................................................. :
C i ................................................................. :
30 VDC
140 mA
1W
0 mH
0 µF
GOST R godkendelse:
VNIIM & VNIIFTRI, Cert. no. ........................ Se www.prelectronics.dk
Overholdte myndighedskrav:
Standard:
EMC 2004/108/EF ....................................... EN 61326-1
ATEX 94/9/EF .............................................. EN 50014, EN 50020,
EN 50021, EN 50281-1-1 og
EN 50284)
FM ............................................................... 3600, 3610, 3611
CSA, CAN / CSA ......................................... C22.2 No. 142, No. 157, No. 213,
CAN / CSA .................................................. E60079-0, -11, -15
ANSI / UL .................................................... UL 60079-0, -11, -15
11
12
13
BLOKDIAGRAM:
14
15
Bus-installation:
PR6350A
Segmentkobler
PROFIBUS® PA / FOUNDATION™ FIELDBUS
TRANSMITTER
PRetrans 6350
Spændingsforsyning
Contents
og
og
DP
PA
Busterminering
Sikkert område
FOUNDATION max. 16 kanaler
PROFIBUS max. 32 kanaler
Eksplosionsfarligt område
Segmentkobler, Ex
PR6350B
Spændingsforsyning, Ex
Til flere
segmentkoblere
Busterminering
16
Safety instructions..............................................................
EC Declaration of Conformity ............................................
Application .........................................................................
Technical characteristics ....................................................
Mounting / installation ........................................................
Applications ........................................................................
Order ..................................................................................
Electrical specifications ......................................................
Connections, inputs:
RTD and resistance ........................................................
Connections, inputs:
Resistance, potentiometer, bipolar mA and mV .............
Connections, inputs:
Thermocouples ...............................................................
Connections, outputs:
Bus connections .............................................................
Block diagram ....................................................................
Bus installation ...................................................................
Appendix:
FM and CSA - Installation Drawing No. 6350QE02 ...........
18
19
20
20
20
21
22
22
28
29
30
30
31
32
65
FOUNDATION max. 10 kanaler
PROFIBUS max. 10 kanaler
17
Safety instructions
• Ex installation:
For a safe installation of 6350B in hazardous area the following must be
observed. The module must only be installed by qualified personnel who are
familiar with the national and international laws, directives and standards that
apply to this area.
Year of manufacture can be taken from the first two digits in the serial number.
For installation requirements and Ex / I.S. data see ATEX certificates and
Installation Drawing No. 6350QE02
EC DECLARATION OF CONFORMITY
As manufacturer
PR electronics A/S
Lerbakken 10
DK-8410 Rønde
hereby declares that the following product:
Type: 6350
Name: PROFIBUS® PA / FOUNDATIONTM Fieldbus transmitter
is in conformity with the following directives and standards:
The EMC Directive 2004/108/EC and later amendments
EN 61326-1 : 2006
For specification of the acceptable EMC performance level, refer to the
electrical specifications for the module.
The ATEX Directive 94/9/EC and later amendments
EN 50014 : 1997, EN 50020 : 2002, EN 50021 : 1999,
EN 50281-1-1 : 1998 and EN 50284 : 1999
ATEX certificate: KEMA 03ATEX1013 X (6350A)
ATEX certificate: KEMA 03ATEX1012 ( 6350B)
No changes are required to enable compliance with the replacement standards:
EN 60079-0 : 2006 and EN 60079-11 : 2007
Notified body
KEMA Quality B.V. (0344)
Utrechtseweg 310, 6812 AR Arnhem
P.O. Box 5185, 6802 ED Arnhem
The Netherlands
Rønde, 17 April 2009
18
Peter Rasmussen
Manufacturer’s signature
19
PROFIBUS® PA / FOUNDATION™ FIELDBUS
TRANSMITTER - PRetrans 6350
•
•
•
•
•
or
RTD and resistance to
bus communication
PROFIBUS® PA ver. 3.0
FOUNDATION™ Fieldbus ver. ITK 4.6
Automatic switch between protocols
FISCO-certified
1- or 2-channel version
TC to
bus communication
Application:
• Linearised temperature measurement with RTD or TC sensor.
+
• Converts analogue mA signals into digital values on the bus communication.
-
• Difference, average or redundancy temperature measurement with RTD or TC
sensor.
• Linear resistance, potentiometer and bipolar mV measurement.
Conversion of mA to
bus communication
Technical characteristics:
• Bus transmitter with both PROFIBUS® PA and FOUNDATION™ Fieldbus
communication. A unique switch function ensures automatic shift between
the two protocols.
• Set-up for PROFIBUS® PA can be done via Siemens Simatic® PDM®, ABB
Melody / Harmony and Metso DNA software and for FOUNDATION™ Fieldbus
via Emerson DeltaV, Yokogawa CS 1000 / CS 3000, ABB Melody / Harmony
and Honeywell Experion software.
mV to
bus communication
+
• Built-in simulation mode function.
-
• Polarity-independent bus connection.
• 24 bit A/D converter ensures high resolution.
• PROFIBUS® PA function blocks: 2 analogue.
• FOUNDATION™ Fieldbus function blocks: 2 analogue and 1 PID.
Difference, redundancy or
average; RTD, TC or mV
2
+
-
1
20
+
-
1
• Mounted vertically or horizontally on a DIN rail. Using the 2-channel version up
to 84 channels per metre can be mounted.
+
2
Mounting / installation:
1
-
2
-
• FOUNDATION™ Fieldbus capability: LAS or Basic.
+
21
Basic values
Electrical specifications:
Specifications range:
-40°C to +60°C
Common specifications:
Supply voltage, DC
Standard ................................................. 9.0...32 V
ATEX, FM and CSA ................................. 9.0...30 V
Internal consumption per channel .............. < 11 mA
Isolation voltage, test .................................. 1.5 kVAC for 60 s
Isolation voltge, operation ........................... 50 VRMS / 75 VDC
Warm-up time.............................................. 30 s
Signal / noise ratio ...................................... Min. 60 dB
Response time (programmable) .................. 1...60 s
Response time (bus communication).......... 100 ms
Signal dynamics, input ................................ 24 bit
Calibration temperature .............................. 20...28°C
Accuracy, the greater of general and basic values:
General values
Input type
Absolute
accuracy
Input type
Basic
accuracy
Temperature
coefficient
Pt100 and Pt1000
≤ ±0.1°C
≤ ±0.002°C / °C
Ni100
≤ ±0.15°C
≤ ±0.002°C / °C
Cu10
≤ ±1.3°C
≤ ±0.02°C / °C
Lin. R
≤ ±0.05 Ω
≤ ±0.002 Ω / °C
mA
≤ ±1 µA
≤ ±0.06 µA / °C
Volt
≤ ±10 µV
≤ ±0.2 µV / °C
TC type:
E, J, K, L, N, T, U
≤ ±0.5°C
≤ ±0.010°C / °C
TC type:
B, R, S, W3, W5
≤ ±1°C
≤ ±0.025°C / °C
EMC immunity influence ................................ < ±0.1% of reading
Extended EMC immunity:
NAMUR NE 21, A criterion, burst .................. < ±1% of reading
Effect of supply voltage variation ................
Max. wire size..............................................
Screw terminal torque .................................
Humidity ......................................................
Dimensions (H x B x D) ...............................
DIN rail type.................................................
Protection degree ........................................
Weight (1 / 2 channels)................................
< 0.005% of reading / VDC
1 x 2.5 mm2 stranded wire
0.5 Nm
< 95% RH (non cond.)
109 x 23.5 x 104 mm
DIN 46277
IP20
145 / 185 g
Electrical specifications, input:
RTD and linear resistance input:
Temperature
coefficient
mA
≤ ±0.05% of reading ≤ ±0.003% of reading / °C
Other types
≤ ±0.05% of reading ≤ ±0.002% of reading / °C
RTD
type
Min.
value
Max.
value
Standard
Pt25...Pt1000
Ni25...Ni1000
Cu10...Cu1000
Lin. resistance
Potentiometer
-200°C
-60°C
-50°C
0Ω
0Ω
+850°C
+250°C
+200°C
10 kΩ
100 kΩ
IEC 60751 / JIS C 1604
DIN 43760
α = 0.00427
-
Cable resistance per wire............................ 50 Ω
22
23
Sensor current .............................................
Effect of sensor cable resistance (3- / 4-wire) .
Sensor error detection ................................
Short circuit detection .................................
Bipolar current input:
Measurement range ....................................
Input resistance ...........................................
Cable breakage detection (4...20 mA) ........
Bipolar mV input:
Measurement range ....................................
Min. measurement range (span) .................
Input resistance ...........................................
Short circuit detection .................................
TC input:
-100...+100 mA
10 Ω + PTC < 20 Ω
< 0,3 mA
-800...+800 mV
2.5 mV
10 MΩ
< 3 mV
Type
Min.
value
Max.
value
Standard
B
E
J
K
L
N
R
S
T
U
W3
W5
Ext. CJC
+400°C
-100°C
-100°C
-180°C
-200°C
-180°C
-50°C
-50°C
-200°C
-200°C
0°C
0°C
-40°C
+1820°C
+1000°C
+1200°C
+1372°C
+900°C
+1300°C
+1760°C
+1760°C
+400°C
+600°C
+2300°C
+2300°C
+135°C
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
ASTM E988-90
ASTM E988-90
IEC60751
Cold junction compensation (CJC) .............
Sensor error detection ................................
Sensor error current:
when detecting .......................................
else ..........................................................
Short circuit detection .................................
Output:
PROFIBUS® PA connection:
PROFIBUS® PA protocol ..............................
PROFIBUS® PA protocol standard ...............
PROFIBUS® PA address (at delivery) ...........
PROFIBUS® PA function blocks ...................
24
Nom. 0.2 mA
< 0.002 Ω / Ω
Yes
< 15 Ω
< ±0.5 °C
Yes
nom. 2 µA
0 µA
< 3 mV
FOUNDATIONTM Fieldbus connection:
FOUNDATIONTM Fieldbus protocol .................
FOUNDATIONTM Fieldbus protocol standard ..
FOUNDATIONTM Fieldbus capability ...............
FOUNDATIONTM Fieldbus version ...................
FOUNDATIONTM Fieldbus function blocks ......
EEx / I.S. approval:
Instructions for safe installation:
Installation Drawing No. ..............................
EEx / I.S. approval - 6350A:
FF protocol
FF design specifications
LAS or Basic
ITK 4.6
2 analogue and 1 PID
6350QE02
KEMA 03ATEX1013 X..................................
II 3 G
EEx nA [L] IIC T4...T6
ATEX, applicable in zone ............................. 2
FM and CSA, applicable in ......................... Class I, Div. 2, Group A, B, C, D
Class I, Zone 2, Group IIC
EEx / I.S. data:
6350A
Zone 2, EEx nA [nL] IIC
Division 2,
nonincendive
Unit
No
barrier
Ui
T1...T4
T5
T6
32 VDC
Tamb. < 85°C
Tamb. < 75°C
Tamb. < 60°C
Sensor input, terminal 41, 42, 43 og 44 and (51, 52, 53 54):
U o ................................................................ : 5.7 VDC
I o ................................................................. : 8.4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
EEx / I.S. approval - 6350B:
Profile A&B, ver. 3.0
EN 50170 vol. 2
126
2 analogue
KEMA 03ATEX1012 .....................................
II 1 GD or II 2 (1) GD
EEx ia IIC T4...T6 or
EEx ib [ia] IIC T4...T6
FISCO
25
ATEX, applicable in zone ............................. 0, 1, 2, 20, 21 or 22
FM and CSA, applicable in ......................... IS, CL. I, DIV. 1, Group A, B, C, D
IS, CL. I, DIV. 2, Group A, B, C, D
Class I, Zone 0/1, Group IIC
FISCO
Ex / I.S. data:
Max. ambient temperature depends on the Po of the connected barrier.
Signal output / supply, terminal 11 to 12 and (21 to 22):
6350B
Zone 0, EEx ia IIC, Entity / Fisco
IS, Class I, Division 1, Group A, B, C, D
Entity / Fisco
Suitable for
Suitable for
Barrier where Barrier where
Po < 0.84 W Po < 1.3 W FISCO systems FISCO systems
30 VDC
Ui
30 VDC
17.5 VDC
15 VDC
120 mADC
Ii
300 mADC
250 mADC
Any
Pi
0.84 W
1.3 W
2.0 W
Any
Li
1 µH
1 µH
1 µH
1 µH
Ci
2.0 nF
2.0 nF
2.0 nF
2.0 nF
T1...T5 Tamb. < 60°C Tamb. < 60°C Tamb. < 60°C
Tamb. < 60°C
T6
Tamb. < 60°C Tamb. < 45°C Tamb. < 45°C
Tamb. < 45°C
Unit
6350B
Zone 1, EEx ib IIC, Entity / Fisco
IS, Class I, Division 2, Group A, B, C, D
Entity / Fisco
Unit
Barrier where
Po < 5.32 W
FISCO segment
coupler
Ui
Ii
Pi
Li
Ci
T1...T6
30 VDC
250 mADC
5.32 W
1 µH
2.0 nF
Tamb. < 60°C
17.5 VDC
Any
Any
1 µH
2.0 nF
Tamb. < 60°C
26
Sensor input, terminal 41, 42, 43, 44 and (51, 52, 53 54)
U o ............................................................... : 5.7 VDC
I o ................................................................. : 8.4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
Current input, terminal 13, 14 and (23, 24)
U i ................................................................. :
I i .................................................................. :
Pi ................................................................. :
L i ................................................................. :
C i ................................................................. :
30 VDC
140 mA
1W
0 mH
0 µF
GOST R approval:
VNIIM & VNIIFTRI, Cert. no. ........................ See www.prelectronics.com
Observed authority requirements:
Standard:
EMC 2004/108/EC ...................................... EN 61326-1
ATEX 94/9/EC .............................................. EN 50014, EN 50020,
EN 50021, EN 50281-1-1 and
EN 50284
FM ............................................................... 3600, 3610, 3611
CSA, CAN / CSA ......................................... C22.2 No. 142, No. 157, No. 213,
CAN / CSA .................................................. E60079-0, -11, -15
ANSI / UL .................................................... UL 60079-0, -11, -15
27
28
29
Block diagram:
30
31
Bus installation:
PR6350A
Segment coupler
TRANSMETTEUR PROFIBUS® PA /
FIELDBUS FOUNDATION™
PRetrans 6350
Power supply
Sommaire
and
and
DP
PA
Bus
termination
Safe area
FOUNDATION max. 16
PROFIBUS max. 32
Hazardous area
Segment coupler, Ex
PR6350B
Power supply, Ex
To additional
segment couplers
Bus
termination
32
Consigne de sécurité .........................................................
Déclaration de conformité CE ............................................
Application .........................................................................
Caractéristiques techniques ..............................................
Montage / installation .........................................................
Applications ........................................................................
Référence ...........................................................................
Spécifications électriques ..................................................
Connexions, entrées :
RTD et résistance ...........................................................
Connexions, entrées :
Résistance, potentiomètre, mA et mV bipolaires ...........
Connexions, entrées :
Thermocouples ...............................................................
Connexions, sorties :
Connexions bus ..............................................................
Schéma de principe ...........................................................
Installation bus ...................................................................
Appendix:
FM et CSA - Installation Drawing No. 6350QE02 ..............
34
35
36
36
36
37
38
38
44
45
46
46
47
48
65
FOUNDATION max. 10
PROFIBUS max. 10
33
Consigne de sécurité
• Installation S.I. :
Pour l’installation de 6350B dans les zones dangereuses, conformez-vous aux
consignes de sécurité suivantes : l’installation ne doit être réalisée que par
du personnel qualifié connaissant la législation nationale et internationale ainsi
que les directives et standards régissant ce domaine.
L’année de production ressort des deux premiers chiffres du numéro de série.
Pour les conditions d’installation et les données de sécurité intrinsèque, voir les
certificats ATEX et l’Installation Drawing No. 6350QE02.
DECLARATION DE CONFORMITE CE
En tant que fabricant
PR electronics A/S
Lerbakken 10
DK-8410 Rønde
déclare que le produit suivant :
Type : 6350
Nom : Transmetteur PROFIBUS® PA / Fieldbus FOUNDATIONTM
correspond aux directives et normes suivantes :
La directive CEM (EMC) 2004/108/CE et les modifications subséquentes
EN 61326-1 : 2006
Pour une spécification du niveau de rendement acceptable CEM (EMC)
renvoyer aux spécifications électriques du module.
La directive ATEX 94/9/CE et les modifications subséquentes
EN 50014 : 1997, EN 50020 : 2002, EN 50021 : 1999,
EN 50281-1-1 : 1998 et EN 50284 : 1999
Certificat ATEX : KEMA 03ATEX1013 X (6350A)
Certificat ATEX : KEMA 03ATEX1012 (6350B)
Aucune modification n’est exigée pour permettre la conformité aux normes de
remplacement :
EN 60079-0 : 2006 et EN 60079-11 : 2007
Organisme notifiée
KEMA Quality B.V. (0344)
Utrechtseweg 310, 6812 AR Arnhem
P.O. Box 5185, 6802 ED Arnhem
The Netherlands
Rønde, 17 avril 2009
34
Peter Rasmussen
Signature du fabricant
35
TRANSMETTEUR PROFIBUS® PA /
FIELDBUS FOUNDATION™ - PRetrans 6350
•
•
•
•
•
ou
RTD et résistance en
communication de bus
PROFIBUS®
PA ver. 3.0
Fieldbus FOUNDATION™ ver. ITK 4.6
Commutation automatique entre protocoles
Certifié aux normes FISCO
Version une ou deux voies
TC en
communication de bus
Application :
• Mesure linéarisée de la température avec sonde résistive ou thermocouple.
+
• Mesure de la température différentielle, moyenne ou redondance avec sonde
résistive ou thermocouple.
• Résistance linéaire, potentiomètre et mesure de tension bipolaire (mV).
-
• Conversion de signaux analogiques mA en valeurs digitales sur la
communication bus.
Conversion de signaux mA
en communication de bus
Caractéristiques techniques :
• Transmetteur de bus avec communication PROFIBUS® PA et Fieldbus
FOUNDATION™. Une fonction de commutation unique assure le passage d’un
protocole à l’autre de manière automatique.
• Configuration PROFIBUS® PA avec les logiciels Siemens Simatic® PDM®, ABB
Melody / Harmony et Metso DNA et configuration Fieldbus FOUNDATION™
avec les logiciels Emerson DeltaV, Yokogawa CS 1000 / CS 3000, ABB
Melody / Harmony et Honeywell Experion.
mV en
communication de bus
+
• Fonction pour mode de simulation incorporée.
-
• La connexion du bus est indépendante de la polarité.
• Le convertisseur A/D de 24 bit assure une très haute résolution du signal.
• Blocs de fonctions PROFIBUS® PA : 2 blocs analogiques.
Différence, redondance ou
moyenne ; RTD, TC ou mV
-
• Fonctionnalités en Fieldbus FOUNDATION™ : LAS ou Basic.
1
-
2
• Blocs de fonctions Fieldbus FOUNDATION™ : 2 blocs analogiques, 1 bloc PID.
+
+
2
2
-
+
-
1
1
Montage / installation:
+
• Pour montage vertical ou horizontal sur rail DIN. En version 2-voies, 84 voies
par mètre peuvent être montées.
36
37
Valeurs de base
Spécifications électriques :
Plage des spécifications :
-40°C à +60°C
Spécifications communes :
Tension d’alimentation, cc
Standard ................................................. 9,0...32 V
ATEX-Ex, FM et CSA .............................. 9,0...30 V
Consommation interne par voie .................. < 11 mA
Tension d’isolation, test............................... 1,5 kVca pendant 60 s
Tension d’isolation, opération ..................... 50 VRMS / 75 Vcc
Temps de chauffe ........................................ 30 s
Rapport signal / bruit .................................. Min. 60 dB
Temps de réponse (programmable) ............ 1...60 s
Temps de réponse (communication bus) .... 100 ms
Dynamique du signal d’entrée .................... 24 bit
Température d’étalonnage .......................... 20...28°C
Précision, la plus grande des valeurs générales et de base :
Valeurs générales
Type
d’entrée
Précision
de base
Coefficient
de température
Pt100 et Pt1000
≤ ±0,1°C
≤ ±0,002°C / °C
Ni100...Ni1000
≤ ±0,15°C
≤ ±0,002°C / °C
Cu10
≤ ±1,3°C
≤ ±0,02°C / °C
R. lin.
≤ ±0,05 Ω
≤ ±0,002 Ω / °C
mA
≤ ±1 µA
≤ ±0,06 µA / °C
mV
≤ ±10 µV
≤ ±0,2 µV / °C
Type TC :
E, J, K, L, N, T, U
≤ ±0,5°C
≤ ±0,010°C / °C
Type TC :
B, R, S, W3, W5
≤ ±1°C
≤ ±0,025°C / °C
Immunité CEM ................................................ < ±0,1% de la val.
Immunité CEM améliorée :
NAMUR NE 21, critère A, burst ......................< ±1% de la valeur
Effet d’une variation de la
tension d’alimentation .................................
Taille max. des fils .......................................
Pression max. avant déformation de la vis..
Humidité ......................................................
Dimension (H x B x D) .................................
Rail DIN .......................................................
Degré de protection ....................................
Poids (1 / 2 voies)........................................
< 0,005% de la valeur / Vcc
1 x 2,5 mm2 fil multibrins
0,5 Nm
< 95% HR (sans cond.)
109 x 23,5 x 104 mm
DIN 46277
IP20
145 / 185 g
Spécifications électriques, entrée :
Type
d’entrée
Précision
absolue
Coefficient
de température
mA
≤ ±0,05% de la val.
≤ ±0,003% de la val. / °C
Autres
≤ ±0,05% de la val.
≤ ±0,002% de la val. / °C
Entrée RTD et résistance linéaire :
Type
RTD
Valeur
min.
Valeur
max.
Standard
Pt25...Pt1000
Ni25...Ni1000
Cu10...Cu1000
Résistance lin.
Potentiomètre
-200°C
-60°C
-200°C
0Ω
0Ω
+850°C
+250°C
+260°C
10 kΩ
100 kΩ
IEC 60751 / JIS C 1604
DIN 43760
α = 0,00427
-
Résistance de ligne par fil ........................... 50 Ω
38
39
Courant de sonde .......................................
Effet de la résistance de ligne (3- / 4-fils) ...
Détection de rupture sonde ........................
Détection de court-circuit ...........................
Entrée courant bipolaire :
Gamme de mesure ......................................
Résistance d’entrée ....................................
Détection de rupture cable (4...20 mA) .......
Entrée mV bipolaire :
Gamme de mesure ......................................
Plage de mesure min. (échelle) ...................
Résistance d’entrée ....................................
Détection de court-circuit ...........................
Entrée TC :
-100...+100 mA
10 Ω + PTC < 20 Ω
< 0,3 mA
-800...+800 mV
2,5 mV
10 MΩ
< 3 mV
Type
Valeur
min.
Valeur
max.
Standard
B
E
J
K
L
N
R
S
T
U
W3
W5
CSF ext.
+400°C
-100°C
-100°C
-180°C
-200°C
-180°C
-50°C
-50°C
-200°C
-200°C
0°C
0°C
-40°C
+1820°C
+1000°C
+1200°C
+1372°C
+900°C
+1300°C
+1760°C
+1760°C
+400°C
+600°C
+2300°C
+2300°C
+135°C
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
ASTM E988-90
ASTM E988-90
IEC60751
Compensation de soudure froide (CSF) .....
Détection de rupture sonde ........................
Courant de sonde :
pendant la détection ...............................
si non ......................................................
Détection de court-circuit ...........................
Sortie :
Connexion PROFIBUS® PA :
Protocole PROFIBUS® PA .............................
Standard protocole PROFIBUS® PA ............
Adresse PROFIBUS® PA (à la livraison) .......
Blocs de fonctions PROFIBUS® PA .............
40
Nom. 0,2 mA
< 0,002 Ω / Ω
Oui
< 15 Ω
< ±0,5 °C
Oui
Nom. 2 µA
0 µA
< 3 mV
Profile A&B, ver. 3.0
EN 50170 vol. 2
126
2 blocs analogiques
Connexion Fieldbus FOUNDATIONTM :
Protocole Fieldbus FOUNDATIONTM ...............
Std protocole Fieldbus FOUNDATIONTM ........
Fonctionnalités Fieldbus FOUNDATIONTM ......
Version Fieldbus FOUNDATIONTM ..................
Blocs de fonctions Fieldbus FOUNDATIONTM .
Approbation EEx / S.I. :
Instructions d’installation sûre :
Installation Drawing No. ..............................
Approbation EEx / S.I. - 6350A:
Protocole FF
Spécifications au design FF
LAS ou Basic
ITK 4.6
2 blocs analogiques et 1 bloc PID
6350QE02
KEMA 03ATEX1013 X..................................
II 3 G
EEx nA [L] IIC T4...T6
ATEX, applicable en zone............................ 2
FM et CSA, applicable en ........................... Class I, Div. 2, Group A, B, C, D
Class I, Zone 2, Group IIC
Caractéristiques S.I. :
6350A
Zone 2, EEx nA [L] IIC
Division 2
non incendiaire
Unité
Ui
Ii
Pi
Li
Ci
T1...T6
Pas de
barrière
32 Vcc
Tamb. < 60°C
Entrée capteur, borne 41, 42, 43, 44 et (51, 52, 53 54) :
U o ................................................................ : 5,7 Vcc
I o ................................................................. : 8,4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
Approbation EEx / S.I. - 6350B:
KEMA 03ATEX1012 .....................................
II 1 GD or II 2 (1) GD
EEx ia IIC T4...T6 ou
EEx ib [ia] IIC T4...T6
FISCO
41
ATEX, applicable en zone............................ 0, 1, 2, 20, 21 ou 22
FM et CSA, applicable en ........................... IS, CL. I, DIV. 1, Group A, B, C, D
IS, CL. I, DIV. 2, Group A, B, C, D
Class I, Zone 0/1, Group IIC
FISCO
Caractéristiques S.I. :
La température ambiante max. dépend de la valeur Po de la barrière connectée.
Sortie de signal / alimentation, borne 11 à 12 et (21 à 22) :
6350B
Zone 0, EEx ia IIC, Entity / Fisco
IS, Class I, Division 1, Group A, B, C, D
Entity / Fisco
Barrière où
Barrière où Peut être utilisé en Peut être utilisé en
Po < 0,84 W Po < 1,3 W systemès FISCO systèmes FISCO
30 Vcc
Ui
30 Vcc
17,5 Vcc
15 Vcc
120 mAcc
Ii
300 mAcc
250 mAcc
Toutes
Pi
0,84 W
1,3 W
2,0 W
Toutes
Li
1 µH
1 µH
1 µH
1 µH
Ci
2,0 nF
2,0 nF
2,0 nF
2,0 nF
T1...T5 Tamb. < 60°C Tamb. < 60°C Tamb. < 60°C
Tamb. < 60°C
T6
Tamb. < 60°C Tamb. < 45°C Tamb. < 45°C
Tamb. < 45°C
Unité
6350B
Zone 1, EEx ib IIC, Entity / Fisco
Entrée capteur, borne 41, 42, 43, 44 et (51, 52, 53 54)
U o ............................................................... : 5,7 Vcc
I o ................................................................. : 8,4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
Entrée courant, borne 13, 14 et (23, 24)
U i ................................................................. :
I i .................................................................. :
Pi ................................................................. :
L i ................................................................. :
C i ................................................................. :
30 Vcc
140 mA
1W
0 mH
0 µF
Approbation GOST R :
VNIIM & VNIIFTRI, Cert. no. ........................ Voir www.prelectronics.fr
Agréments et homologations :
Standard :
EMC (CEM) 2004/108/CE ........................... EN 61326-1
ATEX 94/9/CE .............................................. EN 50014, EN 50020,
EN 50021, EN 50281-1-1 et
EN 50284
FM ............................................................... 3600, 3610, 3611
CSA, CAN / CSA ......................................... C22.2 No. 142, No. 157, No. 213,
CAN / CSA .................................................. E60079-0, -11, -15
ANSI / UL .................................................... UL 60079-0, -11, -15
IS, Class I, Division 2, Group A, B, C, D
Entity / Fisco
Unité
Po < 5,32 W
Coupleur de
segment FISCO
Ui
Ii
Pi
Li
Ci
T1...T6
30 Vcc
250 mAcc
5,32 W
1 µH
2,0 nF
Tamb. < 60°C
17,5 Vcc
Toutes
Toutes
1 µH
2,0 nF
Tamb. < 60°C
Barrière où
42
43
44
45
Schema de principe:
46
47
Installation bus:
PR6350A
Coupleur de segment
PROFIBUS® PA / FOUNDATION™ FIELDBUS
MESSUMFORMER
PRetrans 6350
Alimentation
Inhaltsverzeichnis
et
et
DP
PA
Terminaison
bus
Zone non dangereuse
FOUNDATION max. 16
PROFIBUS max. 32
Zone dangereuse
Coupleur de segment, S.I.
PR6350B
Alimentation, S.I.
Vers des coupleurs de
segment additionnels
Terminaison
bus
48
Sicherheitsanweisung ........................................................
EG-Konformitätserklärung..................................................
Verwendung........................................................................
Technische Merkmale.........................................................
Montage / Installation.........................................................
Anwendungen ....................................................................
Bestellangaben ...................................................................
Elektrische Daten ...............................................................
Anschlüsse, Eingänge:
WTH und Widerstand .....................................................
Anschlüsse, Eingänge:
Widerstand, Potentiometer, bipolarer mA og mV ...........
Anschlüsse, Eingänge:
Thermoelemente .............................................................
Anschlüsse, Ausgänge:
Busanschlüsse ................................................................
Blockdiagramm ..................................................................
Businstallation ....................................................................
Appendix:
FM und CSA - Installation Drawing No. 6350QE02 ...........
50
51
52
52
52
53
54
54
60
61
62
62
63
64
65
FOUNDATION max. 10
PROFIBUS max. 10
49
Sicherheitsanweisung
Ex-Installation:
Für sichere Installation von 6350B in explosionsgefährdeter Umgebung muss
folgendes beobachtet werden. Die Installation muss nur von qualifizierten
Personen, die mit den nationalen und internationalen Gesetze, Direktiven und
Standards des Gebiets bekannt sind, vorgenommen werden.
Die ersten beiden Ziffern der Seriennummer geben das Produktionsjahr an.
Für Einbauvorschriften und Ex-Daten siehe ATEX-Zertifikate und Installation
Drawing No. 6350QE02.
EG-KONFORMITÄTSERKLÄRUNG
Als Hersteller bescheinigt
PR electronics A/S
Lerbakken 10
DK-8410 Rønde
hiermit für das folgende Produkt:
Typ: 6350
Name: PROFIBUS® PA / FOUNDATIONTM Fieldbus
Messumformer
die Konformität mit folgenden Richtlinien und Normen:
Die EMV Richtlinien 2004/108/EG und nachfolgende Änderungen
EN 61326-1 : 2006
Zur Spezifikation des zulässigen Erfüllungsgrades, siehe die Elektrische
Daten des Moduls.
Die ATEX Richtlinien 94/9/EG und nachfolgende Änderungen
EN 50014 : 1997, EN 50020 : 2002, EN 50021 : 1999,
EN 50281-1-1 : 1998 und EN 50284 : 1999
ATEX-Zertifikat: KEMA 03ATEX1013 X (6350A)
ATEX-Zertifikat: KEMA 03ATEX1012 (6350B)
Änderungen zur Einhaltung der folgenden Nachfolgenormen sind nicht erforderlich.
EN 60079-0 : 2006 und EN 60079-11 : 2007
Zulassungsstelle
KEMA Quality B.V. (0344)
Utrechtseweg 310, 6812 AR Arnhem
P.O. Box 5185, 6802 ED Arnhem
The Netherlands
Rønde, 17. April 2009
50
Peter Rasmussen
Unterschrift des Herstellers
51
PROFIBUS® PA / FOUNDATION™ FIELDBUS
MESSUMFORMER - PRetrans 6350
•
•
•
•
•
oder
WTH und Widerstand
in Bus-Kommunikation
PROFIBUS®
PA ver. 3.0
FOUNDATION™ Fieldbus ver. ITK 4.6
Automatische Protokoll-Umschaltung
FISCO-zertifiziert
1- oder 2-kanalige Ausführung
TE in
Bus-Kommunikation
Anwendungen:
+
• Linearisierte Temperaturmessungen mit Widerstandsthermometer oder Thermoelement.
-
• Konvertiert analoge mA-Signale in digitale Werte auf der Buskommunikation.
• Differenz-, Mittelwert- oder redundante Temperaturmessungen mit Widerstandsthermometer oder Thermoelement.
Konvertierung von mA
in Bus-Kommunikation
• Lineare Widerstands-, Kompensator- und bipolare mV-Messungen.
Technische Merkmale:
• Bus-Messumformer mit PROFIBUS® PA und FOUNDATION™ Fieldbus-Kommunikation. Die einzigartige Umschaltfunktion ermöglicht eine automatische
Umschaltung zwischen den beiden Protokollen.
• Konfiguration über PROFIBUS® PA mit Siemens Simatic® PDM®, ABB Melody /
Harmony und Metso DNA Software und über FOUNDATION™ Fieldbus mit
Emerson DeltaV, Yokogawa CS 1000 / CS 3000, ABB Melody / Harmony und
Honeywell Experion Software.
mV in
Bus-Kommunikation
+
• Eingebaute Simulationsmodus-Funktion.
-
• Polaritätsunabhängige Busanschluss.
• Der 24 Bit A/D-Wandler garantiert eine hohe Auflösung.
• PROFIBUS® PA Funktionsblöcke: 2 Analoge.
Differenz, Redundanz oder
Mittel; WTH, TE oder mV
-
• FOUNDATION™ Fieldbus Funktionalität: LAS oder Basic.
1
-
2
• FOUNDATION™ Fieldbus Funktionsblöcke: 2 Analoge und 1 PID.
+
+
2
2
-
+
-
1
1
Montage / Installation:
+
• Wird vertikal oder horizontal auf DIN-Schiene montiert. Mit der Zweitkanal
version können 84 Kanäle pro Meter installiert werden.
52
53
Grundwerte
Elektrische Daten:
Spezifikationsbereich:
-40°C bis +60°C
Allgemeine Daten:
Versorgungsspannung, DC
Standard .................................................
ATEX-Ex, FM und CSA ...........................
Stromverbrauch ...........................................
Isolationsspannung, Test .............................
Isolationsspannung, Betrieb........................
Aufwärmzeit.................................................
Signal-Störabstand .....................................
Ansprechzeit (programmierbar) ...................
Ansprechzeit (Buskommunikation) ..............
Signaldynamik, Eingang ..............................
Kalibrierungstemperatur ..............................
Genauigkeit, höherer Wert von allgemeinen
9,0...32 V
9,0...30 V
< 11 mA
1,5 kVAC für 60 s
50 VRMS / 75 VDC
30 s
Min. 60 dB
1...60 s
100 ms
24 Bit
20...28°C
und Grundwerten:
Allgemeine Werte
Eingangsart
GrundGenauigkeit
Temperaturkoeffizient
Pt100 und Pt1000
≤ ±0,1°C
≤ ±0,002°C / °C
Ni100...Ni1000
≤ ±0,15°C
≤ ±0,002°C / °C
Cu10
≤ ±1,3°C
≤ ±0,02°C / °C
Lin. R
≤ ±0,05 Ω
≤ ±0,002 Ω / °C
mA
≤ ±1 µA
≤ ±0,06 µA / °C
mV
≤ ±10 µV
≤ ±0,2 µV / °C
TC-Typ:
E, J, K, L, N, T, U
≤ ±0,5°C
≤ ±0,010°C / °C
TC-Typ:
B, R, S, W3, W5
≤ ±1°C
≤ ±0,025°C / °C
EMV-Störspannungseinfluss .......................... < ±0,1% v. Messw.
Erweiterte EMV-Störfestigkeit:
NAMUR NE 21, Kriterium A, Burst .................< ±1% v. Messw.
Einfluss von Änderung der
Versorgungsspannung.................................
Max. Leitungsquerschnitt. ...........................
Anzugsmoment d. Schraubklemmen ..........
Feuchtigkeit .................................................
Abmessungen (H x B x D) ...........................
DIN-Schiene ................................................
Schutzart .....................................................
Gewicht (1 / 2 Kanäle) .................................
Elektrische Daten, Eingang:
< 0,005% von Messwert / VDC
1 x 2,5 mm2 Litzendraht
0,5 Nm
< 95% RF (nicht kond.)
109 x 23,5 x 104 mm
DIN 46277
IP20
145 / 185 g
WTH- und linearer Widerstandseingang:
Eingangsart
Absolute
Genauigkeit
Temperaturkoeffizient
mA
≤ ±0,05% v. Messw.
≤ ±0,003% v. Messw. / °C
Andere
≤ ±0,05% v. Messw.
≤ ±0,002% v. Messw. / °C
WTHTyp
Min.
Wert
Max.
Wert
Norm
Pt25...Pt1000
Ni25...Ni1000
Cu10...Cu1000
Lin. Widerstand
Kompensator
-200°C
-60°C
-200°C
0Ω
0Ω
+850°C
+250°C
+260°C
10 kΩ
100 kΩ
IEC 60751 / JIS C 1604
DIN 43760
α = 0,00427
-
Leitungswiderstand pro Leiter .................... 50 Ω
Fühlerstrom ................................................. Nom. 0,2 mA
54
55
Wirkung des Fühlerkabelwiderst. (3-/4-Leiter)..
Fühlerfehlererkennung .................................
Kurzschlusserkennung ................................
Bipolarer Stromeingang:
Messbereich ................................................
Eingangswiderstand ....................................
Kabelbrucherkennung (4...20 mA)...............
Bipolarer mV-Eingang:
Messbereich ................................................
Min. Messbereich (Spanne) .........................
Eingangswiderstand ....................................
Kurzschlusserkennung ................................
TE-Eingang:
-100...+100 mA
10 Ω + PTC < 20 Ω
< 0,3 mA
-800...+800 mV
2,5 mV
10 MΩ
< 3 mV
Typ
Min.
Wert
Max.
Wert
Norm
B
E
J
K
L
N
R
S
T
U
W3
W5
Ext. CJC
+400°C
-100°C
-100°C
-180°C
-200°C
-180°C
-50°C
-50°C
-200°C
-200°C
0°C
0°C
-40°C
+1820°C
+1000°C
+1200°C
+1372°C
+900°C
+1300°C
+1760°C
+1760°C
+400°C
+600°C
+2300°C
+2300°C
+135°C
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
IEC 60584-1
IEC 60584-1
IEC 60584-1
IEC 60584-1
DIN 43710
ASTM E988-90
ASTM E988-90
IEC60751
Vergleichstellungskompensation (CJC) .......
Fühlerfehlererkennung .................................
Fühlerfehlerstrom:
Bei Erkennung.........................................
Sonst .......................................................
Kurzschlusserkennung ................................
Ausgang:
PROFIBUS® PA-Verbindung:
PROFIBUS® PA Protokoll .............................
PROFIBUS® PA Protokollnorm .....................
PROFIBUS® PA Adresse (bei Lieferung).......
PROFIBUS® PA Funktionsblöcke .................
56
< 0,002 Ω / Ω
Ja
< 15 Ω
< ±0,5 °C
Ja
Nom. 2 µA
0 µA
< 3 mV
Profil A&B, ver. 3.0
EN 50170 vol. 2
126
2 Analoge
FOUNDATIONTM Fieldbus-Verbindung:
FOUNDATIONTM Fieldbus Protokoll ................
FOUNDATIONTM Fieldbus Protokollnorm ........
FOUNDATIONTM Fieldbus Funktionalität .........
FOUNDATIONTM Fieldbus Version ...................
FOUNDATIONTM Fieldbus Funktionsblöcke ....
EEx- / I.S.-Zulassung:
Anweisungen für sichere Installation:
Installation Drawing No. ..............................
EEx- / I.S.-Zulassung - 6350A:
FF Protokoll
FF Auslegungsbestimmungen
LAS oder Basic
ITK 4.6
2 Analoge und 1 PID
6350QE02
KEMA 03ATEX1013 X..................................
II 3 G
EEx nA [L] IIC T4...T6
ATEX, für Anwendung in Zone .................... 2
FM und CSA, für Anwendung in ................. Class I, Div. 2, Group A, B, C, D
Class I, Zone 2, Group IIC
Ex- / I.S-Daten:
6350A
Zone 2, EEx nA [L] IIC
Division 2
Nicht-zündfähig
Einheit
Ui
Ii
Pi
Li
Ci
T1...T6
Keine
Barriere
32 VDC
TUmg. < 60°C
Fühlereingang, Klemme 41, 42, 43 und 44 und (51, 52, 53 54):
U o ................................................................ : 5,7 VDC
I o ................................................................. : 8,4 mA
Po ................................................................ : 12 mW
L o ................................................................ : 200 mH
C o ................................................................ : 40 µF
EEx- / I.S.-Zulassung - 6350B:
KEMA 03ATEX1012 .....................................
II 1 GD or II 2 (1) GD
EEx ia IIC T4...T6 oder
EEx ib [ia] IIC T4...T6
FISCO
57
ATEX, für Anwendung in Zone .................... 0, 1, 2, 20, 21 oder 22
FM und CSA, für Anwendung in ................. IS, CL. I, DIV. 1, Group A, B, C, D
IS, CL. I, DIV. 2, Group A, B, C, D
Class I, Zone 0/1, Group IIC
FISCO
Ex- / I.S-Daten:
Max. Umgebungstemperatur in Abhängigkeit von Po des angeschlossenen ExTrenners.
Signalausgang / Versorgung, Klemme 11 bis 12 und (21 bis 22):
6350B
Zone 0, EEx ia IIC, Entity / Fisco
IS, Class I, Division 1, Group A, B, C, D
Entity / Fisco
Barriere mit
Barriere mit
Po < 0,84 W Po < 1,3 W
30 VDC
Ui
30 VDC
120 mADC
Ii
300 mADC
Pi
0,84 W
1,3 W
Li
1 µH
1 µH
Ci
2,0 nF
2,0 nF
T1...T5 TUmg. < 60°C TUmg. < 60°C
T6
TUmg. < 60°C TUmg. < 45°C
Einheit
Anwendung in
FISCO-Systeme
Anwendung in
FISCO-Systeme
17,5 VDC
250 mADC
2,0 W
1 µH
2,0 nF
TUmg. < 60°C
TUmg. < 45°C
15 VDC
Alle
Alle
1 µH
2,0 nF
TUmg. < 60°C
TUmg. < 45°C
6350B
Zone 1, EEx ib IIC, Entity / Fisco
Fühlereingang, Klemme 41, 42, 43, 44 und (51, 52, 53 54)
Uo ................................................................ : 5,7 VDC
Io.................................................................. : 8,4 mA
Po ................................................................ : 12 mW
Lo ................................................................ : 200 mH
Co ................................................................ : 40 µF
Stromeingang, Klemme 13, 14 und (23, 24)
Ui ................................................................. :
Ii ................................................................... :
Pi ................................................................. :
Li .................................................................. :
Ci ................................................................. :
30 VDC
140 mA
1W
0 mH
0 µF
GOST R Zulassung:
VNIIM & VNIIFTRI, Cert. no. ........................ Siehe www.prelectronics.de
Eingehaltene Richtlinien:
Norm:
EMC 2004/108/EG ...................................... EN 61326-1
ATEX 94/9/EG .............................................. EN 50014, EN 50020,
EN 50021, EN 50281-1-1 und
EN 50284
FM ............................................................... 3600, 3610, 3611
CSA, CAN / CSA ......................................... C22.2 No. 142, No. 157, No. 213,
CAN / CSA .................................................. E60079-0, -11, -15
ANSI / UL .................................................... UL 60079-0, -11, -15
IS, Class I, Division 2, Group A, B, C, D
Entity / Fisco
Einheit
Barriere mit
Po < 5,32 W
FISCO Segmentkoppler
Ui
Ii
Pi
Li
Ci
T1...T6
30 VDC
250 mADC
5,32 W
1 µH
2,0 nF
TUmg. < 60°C
17,5 VDC
Alle
Alle
1 µH
2,0 nF
TUmg. < 60°C
58
59
60
61
Blockdiagramm:
62
63
Businstallation:
PR6350A
Segmentkoppler
APPENDIX
Versorgung
und
und
DP
PA
BusAbschluss
Sicheres Bereich
FOUNDATION max. 16
PROFIBUS max. 32
Ex-gefährdeter Bereich
Segmentkoppler, Ex
ATEX, FM, CSA and FISCO
Installation Drawing No.
6350QE02
PR6350B
Versorgung, Ex
An zusätzliche
Segmentkopplern
BusAbschluss
64
FOUNDATION max. 10
PROFIBUS max. 10
65
Non Hazardous Location
Installation Drawing 6350QE02
Hazardous (Classified) Location
Class I, Division 2, Group A,B,C,D
Class I, Zone 1, AEx ib IIC
Associated Apparatus
Barrier or FISCO Supply
With entity Parameters
UM < 250V
Voc or Uo < Vmax or Ui
Isc or Io < Imax or Ii
Po < Pi
Ca or Co > Ci + Ccable
La or Lo > Li + Lcable
Hazardous (Classified) Location
mA
14 CH1 41
42
43
11
44
52
22
24
24
53
mA
In each segment only one active
device , normally the associated
apparatus is allowed to provide the
necessary energy for the fieldbus
system. All other equipment
connected to the bus are not allowed
to provide energy to the system.
Separately powered equipment needs
a galvanic insulation to assure that
the intrinsic safe fieldbus circuit
remanis passive.
43
11
44
21 CH2 51
53
54
6350B
mA
11
44
53
24
Imax or Ii
Pt or Po
12 mW
Pmax or Pi
1W
Ca or Co
40F
Ci
0
La or Lo
200 mH
Li
0
13
42
12
43
11
44
22
See Installation notes
52
23
24
54
53
54
6350B
Approved
Termination
Approved
Termination
Class I, Division 2, Group A,B,C,D
Class I,Zone 0 AEx ia IIC
Class I, Zone 1 AEx ib IIC
Entity,Fisco
T1..T5
Ta +60C
Ta +60C
Ta +60C
Ta +60C
Ta +60C
Ta +60C
T6
Ta +60C
Ta +45C
Ta +45C
Ta +45C
Ta +60C
Ta +60C
Vmax or Ui
30 V
30 V
17.5 V
15 V
30 V
17.5 V
Imax or Ii
120 mA
300 mA
250 mA
any
250 mA
any
Terminal
Terminal
Terminal
13,14 and 23,24
11,12 and 21,22
41-44 and 51-54
Vmax (Ui)
Pmax or Pi
14 CH1 41
6350B
IS, Class I, Division 1, Group A,B,C,D
11-12 2122
54
mA
Terminal
140 mA
53
6350B
mA
8.4 mA
24
Sensor
52
23
Sensor
22
52
23
21 CH2 51
21 CH2 51
30 V
22
Sensor
43
Sensor
13,14 and 23,24
12
44
21 CH2 51
mA
mA
Terminal
42
43
11
mA
52
Sensor
22
42
12
Sensor
12
Sensor
42
13
Sensor
mA
13
13
It or Io
54
14 CH1 41
14 CH1 41
24
Vmax or Ui
53
6350B
54
6350B
14 CH1 41
5.71 V
52
23
mA
23
23
41-44 and 51-54
44
21 CH2 51
Sensor
22
See Installation notes.
Vt or Uo
43
11
21 CH2 51
This device must not be
connected to any
associated apparatus that
uses or generates more
than 250V
Terminal
42
12
mA
12
Sensor
13
13
Sensor
Associated Apparatus
Barrier or FISCO Supply
With entity Parameters
UM < 250V
Voc or Uo < Vmax or Ui
Isc or Io < Imax or Ii
Po < Pi
Ca or Co > Ci + Ccable
La or Lo > Li + Lcable
14 CH1 41
Sensor
Class I, Division 1, Group A, B, C, D
Class I, Zone 0 and Zone 1 AEx ia IIC
Class I, Division 2, Groups A, B, C, D
Class I, Zone 0, AEx ia IIC
mA
Non Hazardous Location
Class I, Division 1, Group A,B,C,D
0.84 W
1.3 W
2.0 W
any
5.32 W
Imax
(Ii)
any
Pmax (Pi)
30 V
30 V
140 mA
250 mA
1W
5.32 W
Vt or Uo
5.71 V
any
It or Io
8.4 mA
any
Pt or Po
12 mW
17,5V
Ci
2 nF
2 nF
2 nF
2 nF
2 nF
2 nF
Ci
0
2 nF
2 nF
Ca or Co
40F
Li
1 H
1 H
1 H
1 H
1 H
1 H
Li
0
1 H
1 H
La or Lo
200 mH
6350QE02revAB.doc 2004-02-06
Rev. AB
1/7
6350QE02revAB.doc 2004-02-06
Rev. AB
2/7
Non Hazardous Location
Installation notes:
Hazardous (Classified) Location
Class I, Zone 2
Class I, Division 2, Groups A, B, C, D
FM / CSA:
mA
For installation in the US the 6350 must be installed according to National Electrical
Code (ANSI-NFPA 70).
For installation in Canada the transmitter must be installed in a suitable enclosure to
meet installation codes stipulated in the Canadian Electrical Code (CEC).
For installation in Canada different intrinsically safe circuits need to be separated as
outlined in the Canadian Electrical Code (CEC)
14 CH1 41
32V
Class 2
Power Supply
13
42
12
43
11
44
Sensor
21 CH2 51
52
22
23
24
Sensor
This device must not be
connected to any
associated apparatus
which uses or generates
more than 250VRMS
53
The entity concept.
Equipment that is FM / CSA -approved for intrinsic safety may be connected to
barriers based on the ENTITY CONCEPT. This concept permits interconnection of
approved transmitters, meters and other devices in combinations which have not
been specifically examined by FM / CSA, provided that the agency's criteria are met.
The combination is intrinsically safe, if the entity concept is acceptable to the
authority having jurisdiction over the installation.
54
6350A
mA
mA
14 CH1 41
42
12
43
11
44
Sensor
13
21 CH2 51
52
23
53
24
54
The entity concept criteria are as follows:
Sensor
22
The intrinsically safe devices, other than barriers, must not be a source of power.
6350A
mA
mA
The maximum voltage Ui(VMAX) and current Ii(IMAX), and maximum power Pi(Pmax),
which the device can receive and remain intrinsically safe, must be equal to or
greater than the voltage (Uo or VOC or Vt) and current (Io or ISC or It) and the power Po
which can be delivered by the barrier.
14 CH1 41
42
12
43
11
44
Sensor
13
The sum of the maximum unprotected capacitance (Ci) for each intrinsically device
and the interconnecting wiring must be less than the capacitance (Ca) which can be
safely connected to the barrier.
21 CH2 51
52
23
24
Sensor
22
53
The sum of the maximum unprotected inductance (Li) for each intrinsically device and
the interconnecting wiring must be less than the inductance (La) which can be safely
connected to the barrier.
54
6350A
mA
Termination
Terminal:
11,12 and
21,22
The entity parameters Uo,VOC or Vt and Io,ISC or It, and Ca and La for barriers are
provided by the barrier manufacturer.
FISCO rules
Class I, Division 2, Group
A,B,C,D
The FISCO Concept allows the interconnection of intrinsically safe apparatus to
associated apparatus not specifically examined in such combination. The criterion for
such interconnection is that the voltage (Vmax), the current (Imax) and the power (Pi)
which intrinsically safe apparatus can receive and remain intrinsically safe,
considering faults, must be equal or greater than the voltage (Uo, Voc, Vt), the
current (Io, Isc, It,) and the power (Po) which can be provided by the associated
apparatus (supply unit). In addition, the maximum unprotected residual capacitance
(Ci) and inductance (Li) of each apparatus (other than the terminators) connected to
the Fieldbus must be less than or equal to 5 nF and 10 H respectively.
Class I, Zone2 IIC
Ta +60C
Vmax (Ui)
6350QE02revAB.doc 2004-02-06
Rev. AB
32 V
3/7
6350QE02revAB.doc 2004-02-06
Rev. AB
4/7
Installation Notes For FISCO and Entity Concepts:
In each I.S. Fieldbus segment only one active source, normally the associated
apparatus, is allowed to provide the necessary power for the Fieldbus system. The
allowed voltage (Uo, Voc, Vt) of the associated apparatus used to supply the bus
must be limited to the range of 14V d.c. to 24V d.c. All other equipment connected
to the bus cable has to be passive, meaning that the apparatus is not allowed to
provide energy to the system, except to a leakage current of 50 A for each
connected device. Separately powered equipment needs a galvanic isolation to insure
that the intrinsically safe Fieldbus circuit remains passive.
1.
The Intrinsic Safety Entity concept allows the interconnection of FM / CSA
Approved Intrinsically safe devices (Div 1 or Zone 0 or Zone1) and
non.incendive apparatus (Div 2 or Zone 2) ,with entity parameters not
specifically examined in combination as a system when: Uo or Voc or Vt Vmax, Io or Isc or It Imax, Po Pi.
Ca or Co Ci + Ccable, La or Lo Li + Lcable, Po Pi.
2.
The Intrinsic Safety FISCO concept allows the interconnection of FM / CSA
Approved Intrinsically safe devices with FISCO parameters not specifically
examined in combination as a system when:
3.
Dust-tight conduit seals must be used when installed in Class II and Class III
environments.
4.
Control equipment connected to the Associated Apparatus must not use or
generate more than 250 Vrms or Vdc.
5.
Installation should be in accordance with ANSI/ISA RP12.6 (except chapter 5 for
FISCO Installations) “Installation of Intrinsically Safe Systems for Hazardous
(Classified) Locations” and the National Electrical Code® (ANSI/NFPA 70)
Sections 504 and 505.
6.
The configuration of associated Apparatus must be Factory Mutual Research or
CSA Approved under the associated concept.
Length of splice: max. 1m
7.
Associated Apparatus manufacturer’s installation drawing must be followed
when installing this equipment.
Terminators
8.
The 6350 Series are Approved for Class I, Zone 0, applications. If connecting
AEx[ib] associated Apparatus or AEx ib I.S. Apparatus to the 6350 the I.S.
circuit is only suitable for Class I, Zone 1, or Class I, Zone 2, and is not suitable
for Class I, Zone 0 or Class I, Division 1, Hazardous (Classified) Locations.".
R = 90 ...100 C = 0 ...2.2 F.
9.
No revision to drawing without prior FM / CSA Approval.
System evaluation
11. The termination must be NRTL approved, and the resistor must be infallible.
The number of passive devices like transmitters, actuators, connected to a single bus
segment is not limited due to I.S. reasons. Furthermore, if the above rules are
respected, the inductance and capacitance of the cable need not to be considered
and will not impair the intrinsic safety of the installation.
12. Warning:
For applications in Div2 or Zone 2 (Classified Locations) Explosion hazard:
Except for field circuits, do not disconnect the apparatus unless the area is
known to be non hazardous.
The cable used to interconnect the devices needs to comply with the following
parameters:
Uo or Voc or Vt Vmax, Io or Isc or It Imax, Po Pi.
Loop resistance R': 15 ...150 /KM
Inductance per unit length L': 0.4…1mH/km
Capacitance per unit length C': 80 ...200 nF/km
C' = C' line/line + 0.5 C' line/screen, if both lines are floating
or
C'= C' line/line + C' line/screen, if the screen is connected to one line
Length of spur Cable: max. 30m
Length of trunk cable: max. 1Km
At each end of the trunk cable an approved line terminator with the following
parameters is suitable:
10. Simple Apparatus is defined as a device that neither generates nor stores more
than 1.2V, 0.1A 20uJ or 25mW.
The sensor circuit is not infallibly galvanic isolated from the Fieldbus input circuit.
However, the galvanic isolation between the circuits is capable of withstanding a test
voltage of 500Vac during 1 minute.
6350QE02revAB.doc 2004-02-06
Rev. AB
5/7
13 Warning:
Substitution of Components May Impair Safety.
6350QE02revAB.doc 2004-02-06
Rev. AB
6/7
ATEX:
The sensor circuit is not infallibly galvanic isolated from the Fieldbus input circuit.
However, the galvanic isolation between the circuits is capable of withstanding a test
voltage of 500Vac during 1 minute.
For Zone 2 installation EEx nA IIC without barrier, provisions must be made to the
supply to prevent transients from exceeding 40% of Vmax.
Production year of 6350 can be taken from the first 2 digits of the serialnumber.
There are no user serviceable parts inside the transmitter
6350QE02revAB.doc 2004-02-06
Rev. AB
7/7
Subsidiaries
DK
UK
FR
DE
PR electronics A/S tilbyder et bredt program af analoge og digitale signalbehandlingsmoduler til industriel automation. Vores
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Temperatur samt Universal-moduler. Alle produkter opfylder de
strengeste internationale standarder, og størstedelen integrerer
den patenterede STREAM-SHIELD teknologi, der sikrer driftsikkerhed i selv de værste omgivelser. Vores motto »Signals the Best«
er indbegrebet af denne filosofi – og din garanti for kvalitet.
France
PR electronics Sarl
Zac du Chêne, Activillage
4, allée des Sorbiers
F-69673 Bron Cedex
[email protected]
tel. +33 (0) 4 72 14 06 07
fax +33 (0) 4 72 37 88 20
Germany
PR electronics GmbH
Bamlerstraße 92
D-45141 Essen
[email protected]
tel. +49 (0) 201 860 6660
fax +49 (0) 201 860 6666
PR electronics A/S offers a wide range of analogue and digital
signal conditioning modules for industrial automation. Our
areas of competence include: Isolation, Displays, Ex interfaces,
Temperature, and Universal Modules. All products comply with
the most exacting international standards and the majority
feature our patented STREAM-SHIELD technology ensuring
reliability in even the worst of conditions. »Signals the Best« is
the epitome of our philosophy – and your guarantee for quality.
Italy
PR electronics S.r.l.
Via Giulietti, 8
IT-20132 Milano
[email protected]
tel. +39 02 2630 6259
fax +39 02 2630 6283
Spain
PR electronics S.L.
Avda. Meridiana 354, 9° B
E-08027 Barcelona
[email protected]
tel. +34 93 311 01 67
fax +34 93 311 08 17
Sweden
PR electronics AB
August Barks gata 6A
S-421 32 Västra Frölunda
[email protected]
tel. +46 (0) 3149 9990
fax +46 (0) 3149 1590
UK
PR electronics UK Ltd
Middle Barn, Apuldram
Chichester
West Sussex, PO20 7FD
[email protected]
tel. +44 (0) 1243 776 450
fax +44 (0) 1243 774 065
PR electronics A/S offre une large gamme de produits pour le
traitement des signaux analogiques et numériques dans tous les
domaines industriels. Nos compétences s’étendent des
transmetteurs de température aux afficheurs, des isolateurs aux
interfaces SI, jusqu’aux modules universels. Tous nos produits
sont conformes aux normes internationales les plus strictes et la
majorité d’entre eux répondent même à la technologie brevetée
STREAM-SHEILD qui garantie un fonctionnement fiable sous
les conditions les plus défavorables. Notre devise »SIGNALS the
BEST« c’est notre ligne de conduite - et pour vous l’assurance
de la meilleure qualité.
PR electronics A/S verfügt über ein breites Produktprogramm an
analogen und digitalen Signalverarbeitungsmodule für die industrielle Automatisierung. Unsere Kompetenzbereiche umfassen:
Displays, Temperaturtransmitter, Ex- und galvanische Signaltrenner, und Universalgeräte. Alle Produkte von PR electronics
werden in Übereinstimmung mit den strengsten internationalen
Normen produziert. Für die Mehrzahl aller Produkte garantiert
die patentierte STREAM-SHIELD Technologie höchste Zuverlässigkeit auch unter schwierigsten Einsatzbedingungen. »Signals
the Best« ist Ihre Garantie für Qualität!
USA
PR electronics Inc
11225 West Bernardo Court [email protected]
Suite A
tel. +1 858 521 0167
San Diego, California 92127 fax +1 858 521 0945
Head office
Denmark
PR electronics A/S
Lerbakken 10
DK-8410 Rønde
www.prelectronics.com
[email protected]
tel. +45 86 37 26 77
fax +45 86 37 30 85