ARDETEM TPIs 4T Instruction Manual
ARDETEM - TA CO/134 4T6T-C 04/18 Any data in this documentation may be modified without prior notice.
ÉTUDES ET RÉALISATIONS
ÉLECTRONIQUES / INSTRUMENTATIONS / AUTOMATISME
Route de Brindas - Parc d’activité d’Arbora - N°2
69510 - Soucieu en Jarrest
FRANCE
Tél. 04 72 31 31 30 - Fax 04 72 31 31 31
Tel. Intern. 33 4 72 31 31 30 - Fax Intern. 33 4 72 31 31 31
http: //www.ardetem.com - e-mail: [email protected]
MODULES OF 4 OR 6 LOGIC INPUTS
TPIs 4T
TPIs 6T
User handbook
version 02.02
Software SlimSet
p1
Summary
UE conformity declaration p2
1 . INTRODUCTION p3
1.1 General features p3
1.2 Electrical features of the inputs p4
1.3 Functions p4
2 . CONFIGURATION OF THE NETWORK p6
3. DIMENSIONS - MOUNTING p7
4 . CONNECTINGS p9
p2
UE CONFORMITY DECLARATION
The manufacturer:
ARDETEM-SFERE
Route de Brindas
Parc d’activité d’Arbora n°2
69510 Soucieu en Jarrest
France
declares that the following products:
Name: Measure concentrator
Type: TPIs 4T
TPIs 6T
comply with the following directives and standards:
The EMC Directive 2014/30/UE
EN 61326-1 : 2013
The Low Voltage Directive 2014/35/UE
EN 61010-1 : 2011
The ATEX directive 2014/34/UE
EN 60079-0 : 2011 EN 60079-15 : 2010
Soucieu en Jarrest, February 14, 2017
Jacques Huguet
Signature of the Manager
This appliance has to be installed in an environment defined in pollution
degree 2 / Overvoltage category II or better for a max. altitude of 2000 m.
Before any installation or maintenance work, make sure the power supply
of the instrument is cut.
This symbole indicates that the module is protected by a double or
reinforced isolation.
The person who has designed the system (electrical installation including
the instrument) is sole responsable for the safety and must make sure it
has been designed according to the current safety standards.
This appliance contains electronic components and
should not be disposed of with the domestic waste.
It should be collected with the WEEE (Waste Elec-
trical and Electronic Equipment), according to the
current regulation.
The instrument may be connected to dangerous electrical
voltages.
It must be mounted, connected and implemented respecting
the current specific regulations, by a qualified technician, trai-
ned to the safety regulations, who will have read this manual.
p3
1. INTRODUCTION
• The TPIs 4T or TPIs 6T are logic input modules, extra narrow (7.2mm) desi-
gned for DIN rail mounting.
They are available in 6 models:
TPIs 4T 5V: 4 logic inputs of the type «logic 5V» insulated from one another
TPIs 4T 24V: 4 logic inputs of the type «logic 24V» insulated from one another
TPIs 4T CO: 4 logic inputs of the type «contact» or «NPN» insulated from one
another
TPIs 6T 5V: 6 logic inputs of the type «logic 5V» insulated from one another
TPIs 6T 24V: 6 logic inputs of the type «logic 24V» insulated from one another
TPIs 6T CO: 6 logic inputs of the type «contact» or «NPN» not insulated from
one another
• These modules belong necessarily to a local network made up of converters
and/or output modules.
The status of the inputs of the module «logic inputs» as well as the result of a
logical calculation from these inputs can be associated with a converter or with
an output module to perform several functions (eg.: direct driving of a relay,
zero reset of alarm recording, etc.)
• Each module is fixed on the DIN rail via a 5 points footing which allows the
communication and the supply of the TPIs of the network (24Vdc ±30%).
Up to 50 TPIs can be connected on the same bus and up to 200 different
measures can be made to transit ; In this configuration the maximum scanning
time is 200ms.
• The programming is performed via the µUSB connector located on the front
face, which is to be connected to a computer of the type PC equipped with the
software SlimSet.
1.1 General features
Operating temperature ...................................-25°C to +70°C
Storage temperature ......................................-40°C to +85°C
Power supply..................................................16.8 to 31.2 Vdc
Max. power draw and internal dissipation. .....0.45W
Galvanic partition........................................ 2.5kV-50Hz-1mn between supply,
logic inputs, µUSB
2,5kV-50Hz-1mn between each input
for the types TPIs 4T
Listed
Installation in ATEX / IECEx area 2
Installation in division 2 cFMus
Compliance with standards:
Directive EMC 2004/108/CE ............EN 61326-1
Directive LV 2014/35/UE ..................EN 61010-1
Standard for CSA electrical safety....CSA C22.2 14-13
..........................................................UL 508 17th ed.
ATEX 94/9/CE ..................................EN 60079-0, EN 60079-15
IECEx ...............................................IEC 60079-0, IEC 60079-15
Hazardous locations.........................CSA C22.2 213
..........................................................ANSI/ISA 12.12.01
Marking:
II 3 G Ex nA IIC T4 Gc
Class I, Div.2, Groups A, B, C, D T4
p4
1.2 Electrical features of the inputs
• TPIs 4T 5V: 4 logic inputs of the type «logic 5V» insulated from one
another
low level < 0.8V / high level > 2.1V / Umax = 6V
input impedance > 3KΩ
• TPIs 4T 24V: 4 logic inputs of the type «logic 24V» insulated from one
another
low level < 4V / high level > 16V / Umax = 32V
input impedance > 28KΩ
• TPIs 4T CO: 4 logic inputs of the type «potential free contact» or «NPN
transistor» insulated from one another
Input resistance 1KΩ at +4V (Imax = 4mA)
• TPIs 6T 5V : 6 logic inputs of the type «logic 5V» not insulated from one
another
low level < 0.8V / high level > 2.1V / Umax = 6V
input impedance > 10KΩ
• TPIs 6T 24V : 6 logic inputs of the type «logic 24V» not insulated from one
another
low level < 2V / high level > 6V / Umax = 32V
input impedance > 14KΩ
• TPIs 6T CO : 6 logic inputs of the type «potential free contact» or «NPN
transistor» not insulated from one another
Input resistance 1KΩ at +3.5V (Imax = 3.5mA)
1.3 Functions:
• Operating mode:
3 operating modes are possible for each logic input:
Mode level: the activation of the logic input will re-send a status
«1» on the concerned measure, status «0» if de-activation.
Mode toggle: at each activation of the logic input, the status of the
concerned measure will be reversed. The minimum duration of the
pulse must be 50ms.
Mode monostable: An activation of the logic input will set the con-
cerned measure at 1 during a programmed time lapse
(t max = 3600 sec., resolution 0.1 sec.)
Remark: A re-activation of the logic input during the time lapse «t»
will re-trigger the time delay.
Measure
value
‘0’
‘1’
Measure
value
‘0’
‘1’
tt
t = duration of the pro-
grammed monostable
p5
• Time lapse:
A time lapse can be programmed on each logic input
(t max = 3600 sec., resolution 0.1 sec.)
This time lapse can be either on switching to 1, or on switching to
0, or in both cases for the modes level and toggle. For the mode
monostable this is possible only on switching to 1.
tt
t = time lapse on switching to 1
or to 0
Mode level:
tt
Mode toggle:
Note: A re-activation of the logic input during the time lapse will can-
cel the effect of the previous activation.
tt
Mode monostable:
Remark: A re-activation of the logic input during the time lapse will
not re-trigger the time lapse.
• Logical calculation register:
3 registers (X, Y and Z) allow the possibility to perform logical calcula-
tions between the logic inputs.
Performed calculation: (V1 OP1 V2) OP2 V3
V1, V2, V3: input variable which can be the status of one of the logic
inputs (reversed or not) or the result of one of the registers (reversed
or not).
OP1, OP2: logical operation performed between the input variables.
This operation can be «ET» (AND), «OU» (OR) or «OU exclusif»
(XOR).
• LEDS:
The LEDS on the front face (as many LEDS as the number of logic
inputs) can be programmed to represent the status of the logic inputs
or the status of the calculation registers.
p6
2. CONFIGURATION OF THE NETWORK
First start by launching the configuration software SlimSet.
The purpose is to define your network using the software.
1) Connect a USB cable on the first instrument of the bus (the most on the left
or the most on the right).
Click on «communication with the devices» and then on «add the connected
device to the architecture».
The instrument will be recognized, and the software will request its position
within the architecture. Enter it, and do the same for all the instruments of the
bus.
2) Then choose the instrument which will be the master (TPIs or TPIvM) and
programme it as master if it is a TPIs (the orange led becomes active).
Important:
From the version 2.02 of the TPIs it is possible to access the configuration of
the instruments of the bus directly from the master..
In this case first connect the instrument defined as master (TPIs or TPIvM),
programme it as master if it is a TPIs and click on «communication through the
master» and then «add or remove some devices».
The software will then take up all the instruments present on the bus and read
their configuration one by one.
For each instrument detected, the SlimSet will request its position on the archi-
tecture. This position can be determined by a specific blinking of the green led
of the concerned instrument (morse code blinking: twice on, once off).
3) Then programme each of the instruments, as well as the links between ins-
truments:
for each of the outputs of the output modules (TPIs 4R, TPIs 2A/4A ...) you
must define the converter associated with this output, as well as the measure
associated with this output.
Measure
number
Type of the
instrument
TPIs 4T TPIs 6T
200 X X Status logic input n°1
201 X X Status logic input n°2
202 X X Status logic input n°3
203 X X Status logic input n°4
204 XStatus logic input n°5
205 XStatus logic input n°6
208 X X Register X result
209 X X Register Y result
210 X X Register Z result
4) Then transfer the programming of all the instruments of the bus.
Important:
From the version 2.02 of the TPIs, it is possible to transfer the programming
of the TPIs directly from the master.
For this purpose, connect yourself on the master and click on «communica-
tion with the devices» and then «communication through the master» and
then «send the configuration of all devices».
Then transfer the programming of the master.
5) Then validate the bus. For this purpose connect yourself on the master,
click on «validate network».
This will record the configuration of the bus in order to point out any error
(loss of a module for example).
The network must always be validated after adding / removing an instrument
and after the modification of all the links between instruments.
p7
3. DIMENSIONS, MOUNTING
Dimensions:............................................ 7.2 x 114 x 114 mm
Housing: ................................................. self-extinguishing of PBT
Terminals: ............................................... screwed connections (2.5mm²,
flexible or rigid)
Screw thread .......................................... M3
Max. tightening torque............................ 0.5Nm / 4.5in.lbs
Min. solid/stranded conductor section .... 0.2mm2 / 26A WG
Max. solid/stranded conductor section ... 2.5mm2 / 14A WG
Protection: .............................................. case / terminals: IP20
• Mounting in switchbox: latching on symmetrical DIN rail, with footing for
the distribution of the 24Vdc power supply and the communication signals.
Instructions for assembling on 35mm DIN rail according to EN 60715
Assembling of
the footings
on the rail
BEWARE:
The polarization
tongue is at the
bottom.
Assembling of
the footings
before mounting
on DIN rail
Mounting
Unmounting
The TPIs of the nework must be mounted one
after another.
1
2
3
4
2
1
p8
• INSTALLATION IN AREA 2 (IECEx, ATEX)
II3G Ex nA IIC T4 Gc
The product must be installed by qualified staff, competent on the directives
and the regulation applicable to the area 2.
It must be installed in a protecting enveloppe conform with the EN 60079-15.
The operator must ensure an external protection in order to prevent transient
disturbances on the supply of the modules higher than 40% of the nominal
voltage.
The USB cable must be inserted or withdrawn only if the instrument has been
set off tension or if the area is safe.
The converter must be disconnected from its DIN rail footing only if the
rail supply has been set off tension or if the area is safe.
The installation must be done according to the EN 60079-14 : 2014.
• INSTALLATION IN DIVISION 2 (cFMus)
Class I, Div.2, Groups A,B,C,D T4
(GB)
The product must be installed by qualified staff, competent on the directives
and the regulation applicable to the division 2.
It must be installed in an additional protecting enveloppe ensuring a protection
at least of the type IP54.
The USB cable must be inserted or withdrawn only if the instrument has been
set off tension or if the area is safe.
The converter must be disconnected from its DIN rail footing only if the
rail supply has been set off tension or if the area is safe.
The installation must be done according to the Canadian Electrical Code Part
1 (for Canada) and the National Electrical Code / NFPA 70 (for the USA).
(FR)
Le produit doit être installé par un personnel qualifié et compétent sur les
directives et la législation applicables à la division 2.
Il doit être installé dans une enveloppe protectrice additionnelle assurant une
protection au minimum de type IP54.
Le câble USB ne doit être inséré ou retiré que si l’appareil a été mis hors ten-
sion ou si la zone est sûre.
Le convertisseur ne doit être déconnecté de son embase rail DIN que
si l’alimentation du rail a été mise hors tension ou si la zone est sûre.
L’installation doit être réalisée selon le Canadian Electrical Code Partie 1 (pour
le Canada) et le National Electrical Code / NFPA 70 (pour les USA).
p9
TPIs 6T
Contact 3
Logic 3
NPN 3
Contact 2
Logic 2
NPN 2
Contact 1
Logic 1
0V
0V
8765
A
B
C
D
E
+
-
communication
24VDC
±30%
}
1
2
3
4
TOR (logic) 1
TOR (logic) 2
TOR (logic) 3
TOR (logic) 4
master
voltage presence
/ error
USB
INPUTS TOR (logic) 5
TOR (logic) 6
not
used
+24V
+5V
0V
0V
+24V
+5V
0V
0V
+24V
+5V
NPN 1
+24V
0V
+5V
0V
+24V
0V
+5V
0V
+24V
0V
+5V
0V
Contact 6
Logic 6
NPN 6
Contact 5
Logic 5
NPN 5
Contact 4
Logic 4
NPN 4
+24V
+24V
+5V
+5V
0V
0V
+5V
+24V
0V
0V
4. CONNECTINGS
TPIs 4T
876
5
A
B
C
D
E
+
-
communication
24VDC
±30%
}
1234
INPUT 2 INPUT 1
INPUT 3
INPUT 4
NPN 2
Logic 2
Contact 2
NPN 1
Logic 1
Contact 1
+24V
+5V
0V
0V
TOR (logic) 1
TOR (logic) 2
TOR (logic) 3
TOR (logic) 4
master
voltage presence
/ error
USB
Contact 4 Contact 3
Logic 4 Logic 3
NPN 4 NPN 3
0V
0V
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1
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