ExCam IPM3014
User manual
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 2 of 40
Content
1 Introduction .............................................................................................................. 5
2 Tech Technical Data ................................................................................................. 6
2.1 Parameters of the explosion protection ............................................................... 6
2.2 Electrical parameters ........................................................................................... 7 2.2.1 Camera module Axis M3014 ..................................................................................................... 7 2.2.2 PTC housing heating (optional) ................................................................................................. 7
2.3 System cable SKD02-T ....................................................................................... 8
2.4 Technical specification of the camera module ..................................................... 9 2.4.1 Axis M3014 ................................................................................................................................ 9
2.5 Other technical data .......................................................................................... 10
3 Safety guidelines .................................................................................................... 13
4 Illustration of the model key .................................................................................. 14
5 Commissioning ...................................................................................................... 16
5.1 Step 1: Installation ............................................................................................. 16
5.2 Step 2: Electrical connection ............................................................................. 16 5.2.1 Potential equalization ............................................................................................................... 17 5.2.2 Connection and protection ....................................................................................................... 18 5.2.3 Tests prior to switching on voltage .......................................................................................... 24
5.3 Testing of the status LED .................................................................................. 24
5.4 Step 3: Adjusting the lens .................................................................................. 25
5.5 Hardware Reset ................................................................................................ 26 5.5.1 Work preparation ..................................................................................................................... 26 5.5.2 Opening the pressure-resistant housing .................................................................................. 26 5.5.3 Closing of the pressure-resistant housing ............................................................................... 30
6 Network access and visualization ........................................................................ 31
6.1 Browser Support ................................................................................................ 31
6.2 Assigning the IP address ................................................................................... 31
6.3 Password / identification .................................................................................... 32
7 Maintenance / Servicing / Alterations ................................................................... 32
8 Repairs and Maintenance ...................................................................................... 32
9 Disposal / Recycling .............................................................................................. 32
10 Drawings .............................................................................................................. 33
11 Notes .................................................................................................................... 39
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Table of Figures
Figure 1.1 – T08 ExCam IPM3014 .................................................................................... 5
Table 4.1 – Model key ..................................................................................................... 14
Figure 5.1 – PE connection ExCam IPM3014 ................................................................. 17
Table 5.1 – Potential equalization .................................................................................... 17
Figure 5.2 – Ex d cable gland with cable ......................................................................... 18
Figure 5.3 – ExCam IPM3014 T08-VA1.2.K1.BOR-C-xxx-K-N ....................................... 18
Figure 5.4 – ExCam IPM3014 T08-VA1.2.K1.BOR-C-xxx-P-N ........................................ 19
Figure 5.5 – ExCam IPM3014 T08-VA1.2.K1.BOR-C-xxx-P-L(L) ................................... 19
Table 5.2 – Wire assignment and plug contact for model key „N“ ................................... 21
Figure 5.6 – RJ45 Pin assignment ................................................................................... 21
Table 5.3 – Wire assignment and plug contact for model key „L“ und “LL“ ...................... 22
Figure 5.7 – SKD02-T Pin assignment ............................................................................ 22
Figure 5.8 – Opening the ExCam IPM3014 ..................................................................... 27
Figure 5.9 – Location of the control button ...................................................................... 27
Figure 5.10 – Disconnecting the mounting adapter ......................................................... 28
Figure 5.11 – Manipulating the control push button ......................................................... 28
Figure 5.12 – Optimized cable routing ............................................................................. 29
Figure 10.1 – Dimensions of the T08 ExCam IPM3014 with K1 flange ........................... 34
Figure 10.2 – Dimensions of the T08 ExCam IPM3014 with K2 flange ........................... 35
Figure 10.3 – Dimensions of the T08 ExCam accessories (1/2) ...................................... 36
Figure 10.4 – Dimensions of the T08 ExCam accessories (2/2) ...................................... 37
Figure 10.5 – T08 ExCam IPM3014 with installation accessories ................................... 38
Figure 10.6 – T08 ExCam IPM3014 with Perspex protection .......................................... 38
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Revision history Product: T08 ExCam® IPM3014
Title: User manual ExCam® IPM3014 Type 08
Doc. -Id. 160617-PT08BA-TG-ExCam IPM3014_en_rev.01
Author: Thiemo Gruber
Date: June 17, 2016
Latest update: July 27, 2016
Rev.- Index Date Name Remarks Authorization of the EX Supervisor
0 Jun 17, 2016 T. Gruber Compilation of the document
Tested and approved
xx.06.2016 – S. Seibert
1 Jul 27, 2016 T. Gruber Revision of the document
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1 Introduction
The ExCam IPM3014 is a very compact and robust digital camera (type T08) which is
manufactured by SAMCON Prozessleittechnik GmbH and can be used very flexibly for
various applications. The main application is the usage within the hazardous areas of the
chemical and/or petro-chemical industry, at offshore plants, in mines, and at biogas
plants. Due to its dimensions and adaption options as well as the exchangeable lenses
with various angle of views, focal length and areas of focus, even sight glass applications
and process observations with only little object distances are possible.
The camera is suitable for the usage within the Ex zones 1, 2, 21, and 22 including the
gas group IIC (all gases, steams, and fogs including acetylene, hydrogen, and carbon
disulphide) and the dust group IIIC (conductive dusts and flammable fibrous material), as
well as in mining (equipment group M2). Besides for fixed installation, the ExCam
IPM3014 is also certified to be used for mobile applications (hand-held).
The Ex-d stainless steel housing allows additional alloys, a powder coating, or coats of
varnishes as well as various mechanical accessories, in order to extend the resistance
towards extreme environmental conditions (salt water, acid, solar radiation, high mechan-
ical strains etc.). Due to the usage of high-quality PTFE sealings, not only the protection
level IP68 is met but also the chemical resistance is maximized.
Figure 1.1 – T08 ExCam IPM3014
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2 Tech Technical Data
2.1 Parameters of the explosion protection
Identification marks according to
Directive RL 94/9/EG (until April 20, 2016)
Directive RL 2014/34/EU: II 2G (Zone 1 and 2)
II 2D (Zone 21 and 22)
I M2 (mining)
Explosion protection (gas): Ex d IIC T6 Gb or
Ex d IIC T5 Gb or
Ex d IIB T6 Gb or
Ex d IIB T5 Gb
Explosion protection (dust): Ex tb IIIC T80°C Db IP68 or
Ex tb IIIC T95°C Db IP68 or
Ex tb IIIB T80°C Db IP68 or
Ex tb IIIB T95°C Db IP68
Explosion protection (mining) Ex d I Mb
Protection level: IP 68 (IEC/ EN 60529)
Transportation / storage temperature: 0°C … +50°C (MTBF)
Ambient temperature (EX)1: -60°C … +70°C (temperature class T6)
-60°C … +75°C (temperature class T5)
Noticed body: TÜV Rheinland (number 0035)
EU Type Examination: TÜV 14 ATEX 7539 X_1st supplement
IECEx TUR 14.0026X_issue No.1
Further certificates: EAC-Ex TC_RU_C_DE.MIO62.B.01921
Test protocol ATEX: 557/Ex.539.01/14
Test Report IECEx: DE/TUR/ExTR14.0026/01
Quality Assessment Report: DE/BVS/QAR14.0006/00
1 Maximum ambient temperature range relevant for explosion protection might deviate to the maximum functional temperature range. For maximum functional temperature
range (MTBF) see chapter 2.5. Values depending on the individual models
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2.2 Electrical parameters
2.2.1 Camera module Axis M3014
Power supply: PoE, IEEE 802.3af/ 802.3at type 1 class 1
Reference power: ±48 V DC (44 ... 54 V DC)
Classification signature: 9 … 12 mA
Maximum power input: 3.84 W
2.2.2 PTC housing heating (optional)
Type: DBK HP05-1/04-24 Reference power UN: 24 V DC
Rated output PN: 20 W
(The PTC load circuit is internally managed via the CB06 circuit board with an adjustable
switching point, hysteresis, and jumper configuration)
Attention!
The power consumption of the housing heating is determined by the ambient tempera-
ture or, respectively, by the PTC features found in the modules’ individual operating
points. In addition, the performance of the PTC load circuit is influenced by the switching-
on characteristics of the CB06 circuit board, the load operation of the internal camera
module as well as the convection cooling on the outside (heat dissipation via housing).
Per module, the switch-on power can reach Pmax > 100W! Supply cable fine wire fuses
have to be dimensioned accordingly by the end user. A super-slow (-TT-) trigger charac-
teristic is recommended.
The typical continuous power rating at the low temperature range (TAMB -30°C) is
P(-30°C) = 12.2 W at a saturated condition
The typical continuous power rating at the artic temperature range (TAMB -60°C) is
P(-60°C) = 26.8 W at a saturated condition
The typical start-up peak at the low temperature range (1x HP05 heating element) is
Imax > 4000 mA !
The typical start-up peak at the artic temperature range (2x HP05 heating element) is
Imax > 8000 mA !
The typical in-rush-duration for IPTC < 1000mA per module is tON ≤ 45s
The typical in-rush-duration for IPTC < 500mA per module is tON ≤ 120s
(saturated range/ steady current)
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2.3 System cable SKD02-T
Description: Samcon System Cable Digital (type „SKD02-T“)
for lowest temperature ranges, data transfer,
PoE power supply of the camera module, and
PTC housing heating (optional), DIN EN 60079-
14: 2014 conform)
Ex d marshalling: Via cable gland 12 (according to DIN EN 60079-
14:2014 [chapter 10.6.2])
At a cable connection length of ≥ 3 m: (without
integrated pressure barrier/ with elastomer
sealing on the outer sheath, with additional
strain relief; At a connection cable length of <
3m: (with integrated pressure barrier/epoxide
compound grouting of the single conductors
and duoplast/elastomer sealing of outer sheath)
Outer diameter: 9.1 ± 0.2mm
Wall thickness: 1.0 ± 0.1mm
Bending radius: 10 x outer diameter at installation
5 x outer diameter after installation
Tensile: Max. 140N
Temperature range: -10° C to +50° C (at point of installation)
-60° C to +80° C (fixed installed)
Conductor design: 4 x 2 x AWG22/1 blank, CAT.6a
Core diameter: 1.52 ± 0.02 mm
Pair shielding: Compound aluminum foil
Shielding: Copper braid, multiple wires 0-10 vz, opt. cov-
erage approx. 85%
Outer sheath/characteristics: PUR FHF, PUR halogen free, flame resistant
(EN 60332-1-2), UV and ozone resistant, high
chemical resistance, EMV shielded
(q.v. www.samcon.eu, data sheet SKD02-T)
User interface: P(Plug) version: RJ-45 plug (EIA/TIA- 568B),
10BASE-T/100BASE-TX PoE
K(terminal block) version: about 12 cm stripped:
8 x single conductors twisted pair (solid conduc-
tor A=0.33mm2, ø=0.64 mm approx. 6 mm
stripped), 1 x shield (Cu braid tinned 1.5 mm2,
ferule color code according to DIN 46228)
10BASE-T/ 100BASE-TX PoE
2 According to the current standard DIN EN 60079-14:2014, the dimensioning/execution of the cable gland with or without integrated pressure barrier / compound grouting does
not depend anymore on the marked gas explosion group (IIB, IIC) or the Ex d pressure chamber volume (<2000cm3, ≥2000cm
3) but solely on the length of the suitable connection
cable (<3m, ≥3m)
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2.4 Technical specification of the camera module
Please note:
Technical details of the internal CCTV module such as light sensitivity, resolution, frame
rate sensor, shutter times, lens details, streaming functions, supported network protocols,
event trigger, storage options, and picture parameter setting via the web interface are
thoroughly provided in the data sheets of the camera manufacturer and not part of the
T08 ExCam user manual.
2.4.1 Axis M3014
Data sheet: http://www.axis.com/files/datasheet/ds_m3014_56427_en_1403_hi.pdf User manual: http://www.axis.com/files/manuals/um_m3014_61144_en_1411.pdf Assigning IP addresses and accessing video streams: http://www.axis.com/files/manuals/ig_assign_ip_51375_en_1304.pdf Installation guide: http://www.axis.com/files/manuals/ig_M3014_1569370_en_1603.pdf
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2.5 Other technical data
Permitted ambient
temperature (MTBF)3: 0 °C … +50 °C (Type N) -30 °C … +50 °C (Type L)
-60 °C … +50 °C (Type LL)
Protection level EN 60529/ IEC 529: IP68
(Protection against permanent immersion in wa-
ter, test conditions have to be observed!)
Test conditions (>IP67): 24h/ 3m water column,
pH-neutrality, temperature of the liquid medium:
+5° C ≤ TWater ≤ +20° C.
Attention: An additional mechanical protection
against water jets is recommended
Housing material4 of the pressure resistant enclosure (Ex d / DIN EN 60079-1: 2014)
according to DIN EN 10027-2: 2015-07 (designation system for steel):
Housing material (standard) MNo.: 1.4404 (X2CrNiMo17-12-2),
AISI 316L / V4A
Housing material (optional) MNo.: 1.4301 (X5CrNi18-10),
AISI 304 / V2A
MNo.: 1.4305 (X8CrNiS18-9),
AISI 303
MNo.: 1.4401 (X5CrNiMo17-12-2),
AISI 316 / V4A
MNo.: 1.4571 (X6CrNiMoTi17-12-2),
AISI 316Ti / V4A
3 Functional temperature range concerning the operational temperature range of the installed components according to manufacture declarations (MTBF – meantime ration
duration between failures). For ambient temperature ranges relevant for explosion protection (ATEX, IECEx) see chapter 2.1 – Explosion protection) 4 The available stainless steel materials dispose of different specific characteristics such as mechanical and chemical resistance. It is possible to optimize the corrosion behavior
in highly acidiferous environments or at offshore applications by selecting the applicable housing material. An electro-polished or powder-coated surface in various RAL colors (standard: RAL7035) is possible
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Protective coating5: Standard color RAL7035 (all RAL colors and
special colors possible)
Specification:
„DURALMIT® 2K-PUR Struktur, Typ DSPT“
(further information available upon request)
Core function:
Maximization of resistances concerning corro-
sion and chemicals in high acid or seawater en-
vironments, additional protection against in-
creased mechanical strain caused by the work-
ing environment (information regarding media
resistance and specific details concerning the
resistance against corrosion, chemicals, or heat
only available upon request and will be checked
individually by SAMCON GmbH).
Additional metallic/non-metallic
materials of the T07 1.2 ex-d housing: Zinced spring steel MNo.: 1.0330, PTFE with
glass microbeads (GYLON® Style 3504 blue),
silicone-coating (Silcoset 105 incl. CureAgent
28), VMQ (silicone), thermos transfer foil made
of polyester (acetone resistant), cable glands
made of brass, nickel-plated (MsNi)
Sight glass material: Borosilicate glass “Ilmadur 10/ I-420”
(DIN70806:2005-05)
Internal materials: Aluminum die cast, zinced (protection housing
of camera module), polyamide (PA6.6/ PA2000)
and polyoxymethylene (POM) isolators and
supporting adapters, T08 aluminum universal
adapter (EN AW-ALSi1MgMn), PTC-ceramics,
PUR and additional thermoplastic plastics, opti-
cal and electronical components etc.
Attention: The Axis module is equipped with a
3.0 V BR / CR2032 lithium battery supplying the
real time clock (RTC). These lithium button cells
(3.0 V) dispose of 1.2 dimethoxymethane;
ethylenglycoldimethylether (EGDME), CAS-No.
110-71-4
5 The protective coating of the housing underlies the explosion protection! Affected are exclusively the outside metal surfaces. The gaps preventing the transmission of an ignition
/ threads as well as the sealings remain unaffected. The modification of the housing surface meets the requirements acc. to DIN EN 60079-0: 2012 chapter 7 – non-metallic housings and non-metallic housing components (UV resistance, temperature index TI or relative heat index RTI-mechanical acc. to ANSI/UL 746B or heat and cold resistance). The avoidance of electrostatic charges is reached by the surface resistance ≤ 9^11 Ω (max. 50% relative humidity) and the lim itation of the layer thickness to 0.2mm (IIC)/ 2mm (IIB). Due to the surface coating, the thermal value and the convection cooling change. The maximum permitted power loss feed into the housing is not affected by it! 6 Valid standards for translucent components in a pressure-tight housing: DIN7080:2005-05 „Round sight glasses made of Borosilicate glass for compressive stress without limitation of the low temperature ranges“
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Weight (without accessories)7: 2,200 g (with „K1“ cable gland flange)
2,650 g (with „K2“ cable gland flange)
Weight of accessories: 800 g (wall mount bracket WMB-S)
900 g (wall mount bracket WMB-L)
800 g (twin adapter WMB-xTA)
350 g (hood WPR-V1.1)
400 g (hood WPR-VA1.2)
50 g (hinge attachment SCH-VA1.x)
450 g (clamp attachment CMB-S)
30 g (Perspex protection for sight glass)
10 g (Thermo-isolator THERM-VA)
(further accessories upon request)
Dimensions housing (wxhxd)8: 79.0mm x 96.0mm x 158.0mm (K1 flange)
79.0mm x 96.0mm x 170.6mm (K2 flange)
Dimensions with accessories (WxHxD)9: 97.0mm x 193.0mm x 299.5mm
(with wall mount bracket and hood)
Fitting of the flame proof gap preventing the transmission of ignition (cylinder) (EX) of the
T07-VA1.2.x.x housing:
Flange / body Nominal diameter: 57 mm (plain cylindrical)
Clearance fit: H8 f7 (DIN ISO 286)
Tolerance: (-60…-30) µm … (0…+46) µm
Smallest gap length > 12.5 mm
(according to DIN EN 60079-1)
Largest gap length < 0.15 mm
(according to DIN EN 60079-1)
Average surface finish: Ra ≈ 2.0 µm
(DIN ISO 468) / Ra ≤ 6.3 µm
(according to DIN EN 60079-1: 2014 [5.2.2])
Cable glands 1x M20*1.5_12 mm (ISO metrical fine thread
acc. to DIN13-2), Quality 6H (medium or fine
(acc. to. ISO 965-1 / ISO 965-3), supporting/
gripping threads ≥ 5 (acc. to the requirements
of DIN EN 60079-1: 2014 [5.3]
table 3 „cylindrical threads“)
Media resistance: Exclusively checked upon request!
Information regarding media resistance and
specific details concerning the resistance
against corrosion, chemicals, or heat only
available upon request and will be checked in-
dividually by SAMCON GmbH 7 Without add-on components, installation accessories, cable gland or plug 8 Dimension stainless steel housing T07 VA2.2 with pin and without cable gland and external accessories. For additional/detailed dimensions see chapter 10 – technical drawings 9 Dimension camera housing T07 VA2.2 with wall mount bracket WMB-L and hood WPR-VA2.2 (axially aligned, maximum depth)
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3 Safety guidelines
Please observe the safety guidelines indicated in the current version of the EX in-
stallation manual of the T08 ExCam series!
Attention! Cameras of the type ExCam T08 Series are not suitable for the use in zone 0 and zone 20. The temperature class and explosion group as stated on the type plate has to be observed. Alterations are not permit-ted. The camera is to be operated in sound conditions and in the in-tended way
Attention! Only original parts of SAMCON Prozessleittechnik GmbH may be used for repairs. Repairs concerning the explosion protection may only be carried out in accordance with the nationally applied regulations and by SAMCON Prozessleittechnik GmbH
Attention! External heat and/ or cooling sources are to be taken into account dur-ing the setting up. The permissible temperature range for transporta-tion, storage, and operation of the camera has to be observed
Attention! When using the ExCam in the mining sector with a "high" risk of me-chanical danger, it is mandatory to protect the transparent parts (glass) of the device (accessory)!
Attention!
The instructions stated on the type and instruction plates have to be
observed:
„WARNING - DO NOT OPEN IN POTENTIALLY EXPLOSIVE
ATMOSPHERES “
“WARNING – DO NOT OPEN WHILE ENERGIZED“
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4 Illustration of the model key
The following model options are currently available for the ExCam IPM3014
Model options
Ex product
name1)
Type2)
Housing
combination3)
Gas explo-
sion group4)
Cable
length/m
SKD02-T5)
Cable
termin.6)
Temperature
range7)
ExCam
IPM3014
T03- AL C- 005- K- N
T03- AL C- 005- P- N
T08- VA1.2.K1.BOR- C- 005- K- N
T08- VA1.2.K1.BOR- C- 005- P- N
T08- VA1.2.K2.BOR- C- 005- K- N
T08- VA1.2.K2.BOR- C- 005- P- N
T08- VA1.2.K1.BOR- C- 005- K- L
T08- VA1.2.K1.BOR C- 005- P- L
T08- VA1.2.K2.BOR C- 005- K- L
T08- VA1.2.K2.BOR C- 005 P- L
T08- VA1.2.K1.BOR- C- 005- K- LL
T08- VA1.2.K1.BOR- C- 005- P- LL
T08- VA1.2.K2.BOR- C- 005- K- LL
T08- VA1.2.K2.BOR C- 005- P- LL
Table 4.1 – Model key
Explanations:
1) ExCam IPM3014 = Functional camera description of the ExCam (technical data /
specification of the individual camera module)
2) T08 = Production type concerning the certifications of the „T08
ExCam Series“, EC type examination: „TÜV 14 ATEX 7539
X_1st supplement“, „IECEx TUR 14.0026X_1st supplement“ and EAC-Ex
TC-RU-C-DE.MIO62.B.01921“or
„T03 ExCam“, EC type examination: „TÜV 09 ATEX 7697 X_2nd supple-
ment“
3) VA1.2.K1.BOR = T07 Ex d housing (stainless steel 1.4404) with small diameter (ØVA=79mm)
and small sight glass (ØBOR VA = 40mm effective / translucent area),
EC type examination: „TÜV 14 ATEX 7473 U“ und „IECEx TUR 14.0024U“
VA1.2.K1.BOR = T07 VA1.x housing with maximum body length (LVA1.2.R = 136mm)
VA1.2.K1.BOR = K1 cable gland flange (axial cable gland, standard)
VA1.2.K2.BOR = K2 cable gland flange (orthogonal cable gland)
Option for space sensitive conditions (bending radius cable etc.)
VA1.2.K1.BOR = Borosilicate sight glass DIN7080 standard execution, for video cameras
within visible spectral range and photographical infrared range (NIR), not
suitable for thermographic applications (MIR/ FIR), alternative materials:
Germanium (GER), zinc sulfide (ZnS FLIR), etc.
AL = T03-AL (aluminum AL Si7Mg03, copper free) Ex d housing type
FHEL, EC type examination: „LCIE 08 ATEX 0011 U“,
maximum body length ØAL = 100 mm, diameter translucent / effective sight
glass area ØBOR AL = 52 mm, body length LAL = 162.8 mm
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4) C = Explosion group IIC/ IIIC standard execution. Suitable for all gases,
including hydrogen, acetylene, carbon disulfide, flammable fibrous material
and non-conductive dusts)
5) 005 = Length of the connection line in meter at delivery. The standard cable
length is 5 m (minimum/maximum cable length: 001…100 [m])
Information: According to DIN EN 60079-14:2014 [chapter 10.6.2]) it is, at
a cable length of ≥ 3 m, possible to use cable glands without an integrat-
ed pressure barrier as well as an elastomer sealing on the outer sheath
and an additional strain relief. At a cable length of < 3, the cable gland has
to be carried out with an integrated pressure barrier, this means with
epoxide compound grouting of the single conductors and with duroplast /
elastomer sealing on the outer sheath, dimensioned appropriately! The di-
mensions of the cable glands are hence variable.
6) K = Terminal block termination (standard)
SKD02-T: CAT6a, 8x single conductor AWG22/1 „twisted pair“ solid
conductor copper blank, 0.33 mm2
/ Ø=0.64 mm, approx. 6
mm striped, 1x shield CU-braid tinned 1.5 mm2
with fer-
ules, blue
Attention:
For model keys L and LL, the electrical connection
(wire and contact assignment) of the ExCam IPM3014 is
operated outside the PoE specification IEEE802.3af. The
cable is split into 4 wires each (48 VDC PoE/24 VDC PTC)
The wires are color coded applicably.
P = Plug- termination (optional)
SKD02-T: CAT6a, RJ-45 network plug (heavy duty), AWG 26-22,
contact assignment acc. to specification EIA/TIA-568B
Attention:
For model keys L and LL, „Plug“ termination refers
exclusively to the four wires used for PoE Mode A. The
contact assignment of the RJ45 plug is done according to
specification EIA/TIA-568B. The PoE specification of the
electrical connection is not met since only a PSE with
phantom power and 100BASE-TX is allowed for the four
wires. Strain relief is provided by shrinking tubes and bend
reliefs. The cable termination of the 24 VDC PTC wires
(4x) is identical to “K“ termination (q.v. above).
(7) N = Normal ambient temperature range (MTBF): TAMB_N: 0 … +40 [°C] (T03-AL)
N = Normal ambient temperature range (MTBF): TAMB_N: 0 … +50 [°C] (T08-VA)
L = Low ambient temperature range (MTBF): TAMB_L: -20 … +40 [°C] (T03-AL)
L = Low ambient temperature range (MTBF): TAMB_L: -30 … +50 [°C] (T08-VA)
LL = Lowest ambient temperature range (MTBF): TAMB_LL: -60 … +50 [°C] (T08-VA)
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5 Commissioning
Attention!
Please observe the national regulations regarding security, installa-
tion, and accident prevention (e.g. DIN EN 60079-14 or DIN VDE 0118-
1:2010-02) for the erecting of electrical plants in mining etc.) as well as
the safety guidelines described in this user manual and the EX instal-
lation manual!
Attention!
Please observe the installation and commissioning advices described
in the ATEX/ IECEx/ EAC-Ex Ex-installation manual!
5.1 Step 1: Installation
Install the ExCam® IPM3014 at the desired location.
Mounting options and conditions, accessories, as well as safety guidelines are described
in the EX installation manual of the T08 ExCam® Series.
5.2 Step 2: Electrical connection
Attention!
The electrical connection of the equipment must be executed by quali-
fied personnel only!
Attention!
It is mandatory that the housing of the ExCam® Series has to be
grounded via a PE-connection!
Attention!
The minimum cable length of the connection line must not be less
than one meter! The connection cable has to be laid in a protected
manner!
Attention!
Please observe the national regulations regarding security, installa-
tion, and accident prevention (e.g. DIN EN 60079-14 VDE 0118-1:2010-
02 etc.), as well as the safety guidelines described in this user manual
and the EX installation manual!
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 17 of 40
The T08 ExCam® IPM3014 s delivered with the electrical connection cable type SKD02-T
suitable for the hazardous area. The maximum cable length is 100 m (depending on elec-
tromagnetic tolerance) and can be determined individually to reflect the particular cus-
tomer specifications. The minimum cable length is 1 meter.
The ExCam® IPM3014 is manufactured with a cable pigtail reflecting the desired cable
length. Any electro-technical or mechanical work inside the camera’s flameproof enclo-
sure which is done by the user is prohibited and not required. Depending on the model
option, the ending of the camera’s cable connection is either stripped to the blank Cu
conductors or furnished with a plug.
5.2.1 Potential equalization
Figure 5.1 – PE connection ExCam IPM3014
The potential equalization (earthing of the camera housing) is mandatory in order to
avoid electrostatic charging and hence spark generation. The screw terminal on the
housing’s rear side is intended for this purpose (q.v. figure 5.1). The profile of the poten-
tial equalization has to reflect the national grounding instructions (min. 4 mm2).
Connection table: Potential Color (IEC 60757) Profile Comment
PE GN/YE 4 mm2 (fix) Screw terminal: Slotted screw M4 x 0.7 (DIN
84) with washer Ø 9 mm (DIN 125A). 3Nm
tightening torque has to be observed!
Table 5.1 – Potential equalization
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 18 of 40
5.2.2 Connection and protection
Figure 5.2 – Ex d cable gland with cable
Figures 5.3 – 5.5 illustrate the possible cable terminations available for the ExCam
IPM3014. Possible cable terminations are terminal block, plug, or the hybride execution
for the optional heating (attention: IEEE PoE specification then does not apply anymore!)
Figure 5.3 – ExCam IPM3014 T08-VA1.2.K1.BOR-C-xxx-K-N
Ex-cable: SKD02-T (SAMCON)
Ex d cable gland: ADE 4F MsNi Type5 - M20x1.5 with additional strain relief
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 19 of 40
Figure 5.4 – ExCam IPM3014 T08-VA1.2.K1.BOR-C-xxx-P-N
Figure 5.5 – ExCam IPM3014 T08-VA1.2.K1.BOR-C-xxx-P-L(L)
Via the 8 (+1) wire green patch cable “SKD02-T“, the digital video stream is transferred
via IP/ TCP/ RTSP protocol levels and the camera module is controlled and/or
parametrized via the web interface or the video management software. The power supply
of the PoE camera and the optional heating mode (none-PoE) is conducted via this ca-
ble. In order to guarantee the power supply of the T08 ExCam IPM3014 (Powered De-
vice/ PD), a Power-over-Ethernet component (Power Sourcing Equipment, PSE) has to
be available at the connecting side (e.g. a PoE Switch, a PoE Injector, or Midspan) which
meets the specification IEEE 802.3af or 802.3at type 1 class 110. The interface of the
ExCam IPM3014 uses a 100 Mbit/s „Fast Ethernet“ connection for the data transfer
(100BASE-TX).
In case the camera disposes of a plug (figure 5.4 and figure 5.5); it has to be plugged into
the RJ45 PoE slot of the network device. Due to the design, a faulty connection or pin
assignment is not possible. The network device can already be supplied with power, prior
to connecting it to the camera, hence there is no „power ON“ priority which has to be ob-
served.
10 Classification power: 9-12 mA, nominal voltage 48 V DC (44…54 V DC),maximum feed power PSE: 4.0 W, removal performance PD: 0.44 W – 3.84 W
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 20 of 40
If the ExCam IPM3014 disposes of a terminal block termination, the correct connection of
the individual pins in accordance with EIA/TIA-568B has to be observed (q.v. table 5.2).
Generally, the pins of the same color code (IEC60757) are connected. If the ExCam
IPM3014 is equipped with a PTC housing heating, particular connection conditions apply
(PoE network 48 VDC and CB06 heating load circuit 24 VDC have to be supplied sepa-
rately (q.v. table 5.3)).
Attention: The general specification for PoE allows different operation modes for PDs
(ExCam IP1354, ExCam IP1357, ExCam IPQ1775 etc.):
Mode A (end span): This is usually used by switches; the supply voltage is executed as
phantom power on the data lines. Both polarities are possible.
Mode B (mid span): This is usually used by PoE injectors; the power supply and protocol
transfer is executed on separate pins (plug / pin contact 4.5 is the positive pole and 7.8 is
the negative pole). The T08 ExCam Series supports both modes and the used power
source (PSE) determines the mode.
Important: If the ExCam IPM3014 is delivered with a heating (model key L or LL), figure
5.5), only four wires are available for PoE. In this case, the PSE has to be operated in
mode A (phantom power) - q.v. wire assignment table 5.3). The applicable devices on the
connection side should be checked upfront regarding suitability. If you need support,
please get in touch with [email protected].
It is also allowed to separate and re-connect the ExCam IPM3014 from the network when in
operation and/or when interacting with the visualization software (hot plugging), or, if neces-
sary, to reboot it for carrying out a re-parametrization or set it back to default.
Attention: „Hot plugging“ as well as the connection and separation of the data and
power cable SKD02-T from/of network devices and terminal blocks under power is on-
ly allowed within the safe area (non-hazardous atmosphere)!
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 21 of 40
For model key „N“ the SKD02-T’s pin assignment is in accordance with the standard
EIA/TIA-568B for 100BaseTX with PoE (IEEE 802.3af/at):
Pin/ Potential
Color SKD02-T
(IEC60757)
Plug contact
(TIA-568B)
Profile
AWG22/1
Comments
Area
[mm2]
Diame-
ter [mm] Mode A Mode B
Tx+ /
PoE ±48 VDC
Tx+ WH / OG 1 0.33 0.64 Solid Conductor Cu blank
Tx- /
PoE ±48 VDC
Tx- OG 2 033 0.64 Solid Conductor Cu blank
Rx+ /
PoE GND
Rx+ WH / GN 3 0.33 0.64 Solid Conductor Cu blank
n.a. PoE +48 VDC BU 4 0.33 0.64 Solid Conductor Cu blank
n.a. PoE +48 VDC WH / BU 5 0.33 0.64 Solid Conductor Cu blank
Rx- /
PoE GND
Rx- GN 6 0.33 0.64 Solid Conductor Cu blank
n.a. PoE GND WH / BN 7 0.33 0.64 Solid Conductor Cu blank
n.a. PoE GND BN 8 0.33 0.64 Solid Conductor Cu blank
Shield A/ GND
(entire conductor bunch)
BK 9 n.a n.a. Braids of tinned copper wire, Ø each: 0.13mm (AWG 36)
Shield B
(single, twisted pair wire)
n.a. n.a. / 10 n.a. Aluminum syn-
thetic strap,
wrapped
Table 5.2 – Wire assignment and plug contact for model key „N“
Figure 5.6 – RJ45 Pin assignment
9
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For model key „L“ and „LL“, the wires of the SKD02-T system cables are, for marshalling
the PoE transmission and heating supply, assigned as follows:
Pin/ Potential
Color
SKD02-T
(IEC60757)
Plug contact (EIA/ TIA-
568B)
Profile AWG22/1
Comments
Area
[mm2]
Diame-
ter [mm] Mode A Mode B
Tx+ /
PoE ±48 VDC
n.a. WH / OG 1 0.33 0.64 Solid Conductor Cu blank
Tx- /
PoE ±48 VDC
n.a. OG 2 0.33 0.64 Solid Conductor Cu blank
Rx+ /
PoE GND
n.a. WH / GN 3 0.33 0.64 Solid Conductor Cu blank
L- /
CB06 GND
n.a. BU 4 Terminal block
0.33 0.64 Solid Conductor Cu blank
L- /
CB06 GND
n.a. WH / BU 5 Terminal block
0.33 0.64 Solid Conductor Cu blank
Rx- /
PoE GND
n.a. GN 6 0.33 0.64 Solid Conductor Cu blank
L+ /
CB06 +24 VDC
n.a. WH / BN 7 Terminal block
0.33 0.64 Solid Conductor Cu blank
L+ /
CB06 +24 VDC
n.a. BN 8 Terminal block
0.33 0.64 Solid Conductor Cu blank
shield A/ GND
(braid entire conductor bunch)
BK 9 n.a n.a. Braids of tinned copper wire, Ø each: 0.13mm (AWG 36)
Shield B
(individually wrapped, twisted pair
wires)
n.a. n.a. / 10 n.a. Aluminum syn-
thetic strap,
wrapped
Table 5.3 – Wire assignment and plug contact for model key „L“ und “LL“
Particularly in EMC critical environments, it is necessary to make sure that the cable shield is
grounded on side of the terminal block (wire and pin contact No. 9, q.v. figure 5.6 and 5.7).
Figure 5.7 – SKD02-T Pin assignment
4 2
6
3
9 (Shield A) / GND)
5
8
7
1
10 (Shield B)
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An additional safeguarding of the ExCam IPM3014’s PoE power supply is not necessary.
The power supply is executed by the PoE network device via an electronic with intelligent
set-up. The camera as well as the connection is permanently monitored in order to avoid any
failure or defects in case of a short-circuit fault. For a camera with terminal block termina-
tion it is possible to power the camera with a PoE as well as with a non-PoE device
(IEEE 802.3u) and a separate 48 V DC power supply (build-to-order, IPM3014 supply
voltage and network streams are autarkical). This configuration is only available for
ExCam IPM3014 cameras with the model key „N“. In this case a sufficiently dimensioned
supply protection has to be used.
For a separate 48 V DC power supply of the camera we suggest the following supply pro-
tection:
100mA -F- fast (ESKA UL-fine wire fuse 20x5 mm)
If the camera disposes of the heating (type „L“ or type „LL“), a second, independent 24 V
DC power supply with a separate supply protection at the „L+“ potential has to be availa-
ble. Standardly, the supply is conducted via the SKD02-T system cable at the wire con-
tacts 4, 5, 7, and 8 (q.v. table 5.3).For the additional (or optional) 24 V DC power supply
of the CB06 heating power circuit, we suggest the following supply protection:
2000 mA -T- time-lag (ESKA UL- fine wire fuse 20x5 mm)
Attention:
The ExCam IPM3014‘s general technical data, power peaks and in-rush patterns of the
CB06 load circuit are described in chapter 2.2.2.
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 24 of 40
5.2.3 Tests prior to switching on voltage
Attention!
Prior to commissioning, all tests as indicated by the national regula-
tions have to be executed. In addition, it is mandatory that the proper
functioning of the operating device in accordance with this user man-
ual and all other applicable regulation has been executed.
Attention!
Incorrect installation and operation of the camera may lead to a loss of
warranty!
Attention!
When powering the camera in ambient temperatures of less than 0°C
(storage temperature), it has to be ensured that the enclosure is heat-
ed-up before switching on the camera circuit. For non-continuous sys-
tems please use an adequate time relay to switch on the heater, before
the camera circuit is switched on!
5.3 Testing of the status LED
The Axis M3014 camera module has several status LEDs which are completely visible
only when the Ex d housing is open, however their activity can be viewed through the
sight glass.
By checking the proper functioning of the status LEDs, it can be determined whether the
camera works without having to access it via the web interface.
The status determination of the ExCam IPM3014 network camera by the means of the
LED indicators is thoroughly described in the Axis user manual (page 6):
http://www.axis.com/files/manuals/um_m3014_61144_en_1411.pdf
The „boot“ procedure of the ExCam IPM3014 may take up to one minute.
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 25 of 40
5.4 Step 3: Adjusting the lens
Any lens adjustments by the user are prohibited! The lens of the Axis M3014 uses a fixed
focal length with an adjustable focus. The default setting of the focus is optimized to an
object distance of 10 m. In case of an object distance of less than 0.5 m or more than 10
m, please advise SAMCON prior to delivery so that the applicable adjustments can be
implemented. The standard focal length of the ExCam IPM3014 is f=2.9 mm, with an f-
number F2.0 (fixed iris) and a horizontal angle of view of 80°. Furthermore the camera
disposes of a 1/4" RGB CMOS sensor with progressive scan and up to 30 fps.
Additional lenses are available upon request; the following compatible M12 Megapixel
lenses are available: 2.8 mm (F2.6) to 16.0 mm (F1.8) focal length. Depending on the
individual requirements, it might be necessary to check the integration options, though.
Additional information regarding compatible lenses for the ExCam IPM3014 you also find on the Axis homepage: http://www.axis.com/us/en/products/axis-m3014/software-and-accessories
Information!
If not determined differently, the default setting for the ExCam®
IPM3014 is set to maximum sensor resolution (1280 x 800 px) and low
picture compression (high picture quality, high bandwidth require-
ment). The focus is optimized for a distance of approx. 10 m.
If desired, we customize the ExCam® IPM3014 settings to reflect
specific picture sizes (16:10, 16:9, 4:3) and object distances, angle of
views etc. Please advise accordingly at order placement. The same is
valid for passwords, user names, streaming profiles, or IP addresses
etc. which can also be pre-configured
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 26 of 40
5.5 Hardware Reset
A hardware reset should only be carried out under the following conditions: The camera
is not accessible in the network even though it has been disconnected from power, after
a failed firmware update, or a factory reset has been explicitly asked for. For carrying out
a hardware reset it is allowed to open the Ex d housing. All required steps are described
in chapters 5.5.1 to 5.5.5 of this user manual; the descriptions stated in the T08 ExCam
Series Ex installation manual have to be observed!
5.5.1 Work preparation
Attention! Please carry out any preoperational work carefully and in accordance with the applicable regulations.
Attention:
Note: Depending on the zone classification, it might be necessary to
obtain a work permit/clearance! When adjusting the camera settings
potentially explosive atmosphere must be avoided by any means!
Use appropriate tools
Make sure you have a secure foothold
Avoid static charge
5.5.2 Opening the pressure-resistant housing
Opening the pressure tight camera housing is only allowed to carry out the hardware re-
set of the M3014 camera module. Afterwards, the housing has to be closed explosion-
proof again! The steps below have to be followed very carefully:
„WARNING – DO NOT OPEN IN HAZARDOUS AREA“
Note: Depending on the zone classification, it might be necessary to
obtain a work permit/clearance! When adjusting the camera settings,
potentially explosive atmosphere must be avoided by any means!
Attention:
For opening the pressure-tight stainless steel housing T07 VA1.2.K1.BOR of the ExCam
IPM3014, it is mandatory to follow the step-by-step instructions as stated in the T08 Ex
installation manual!
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 27 of 40
Figure 5.8 – Opening the ExCam IPM3014
Attention!
Beware not to damage the surface of bore hole and shaft (fit) at the
flame proof gap preventing the transmission of ignition
Attention!
Please make sure not to damage housing sealings and to keep them
clean
The two control buttons are located on the Axis modules main board (q.v. Figure 5.9); the
red push button is used for carrying out the hardware reset (q.v. figure 5.9.)
Figure 5.9 – Location of the control button
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 28 of 40
In order to be able to press the control button, the black mounting adapter has to be dis-
connected from the stainless steel flange. To do so, please take off the M3*0.5 10 mm
cylinder head screws (DIN 912) with the associated washers (DIN 127 A) (q.v. figure
5.10)
Figure 5.10 – Disconnecting the mounting adapter
Attention: Via a „heavy duty“ RJ45 network plug, the hardware is connected to the sys-
tem cable. For low temperature models, there are also two further wires (BK) and an ad-
ditional plug connection (WH) to the heating module. It is not mandatory to unplug the
RJ45 plug but it might facilitate the handling. If the cable is unplugged, please make sure
to re-loop it later on.
Carefully tilt the mounting adapter so that through the opening, the red push button can
be pressed to carry out the hardware reset (q.v. Figure 5.11).
Please make sure not to damage any electrical installations, cable interfaces, the lens, or
the mounting components. Also, please do not to exert mechanical strain on the afore-
mentioned components. Please be aware that the measures run a risk of distorting the
optical axis which leads to a reduction in the picture quality!
Figure 5.11 – Manipulating the control push button
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When touching electrical components, potential equalization (ground-
ing of the body) has to be observed (ESD clothing, PE wristband etc.)!
For carrying out the hardware reset, please refer to the Axis user manual (page 45)
which describes the individual steps:
http://www.axis.com/files/manuals/um_m3014_61144_en_1411.pdf
After the successful hardware reset, the mounting adapter has to be fixed again with the
three M3*0.5 original screws and the associated washers. A tightening torque of 2.5 Nm
is recommended!
When closing the housing, the cable routing has to be observed! In order to avoid colli-
sions and mechanical strain within the closed housing as well as to observe the neces-
sary bending radius, the cable has to be looped (q.v. figure 5.12).
Figure 5.12 – Optimized cable routing
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 30 of 40
5.5.3 Closing of the pressure-resistant housing
Attention:
For closing the pressure-tight stainless steel T07 VA1.2.K1.BOR housing of the ExCam
IPM3014, the instructions of the T08 Ex installation manual have to be followed step by
step!
ATTENTION:
In case of any mechanical damages that happened to the flameproof
joint, the housing must not be used anymore!
ATTENTION!
Do not lock-in any foreign objects in the housing
Cylinder head scrrews used for explosion-proof connection of the
housing body with the flanges, always have to be tightened evenly
and crosswise with a tightening torque of 3.0 Nm
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 31 of 40
6 Network access and visualization
For a comprehensive user manual of the web surface, please refer to the to the Axis user
manual: http://www.axis.com/files/manuals/um_m3014_61144_en_1411.pdf
At delivery, the ExCam IPM3014 is set to the applicable net frequency (50Hz or 60Hz). If
the camera is used at a location with a differing net frequency, a flickering of the picture
might be noticeable, particularly in surroundings with fluorescent tubes. In such a case,
the applicable settings have to be carried out within the menu “System Options > Ad-
vanced > Plain Config”, requiring a system restart.
6.1 Browser Support
A list with the currently supported web browsers, operating systems, and required add-
ons can be viewed at:
http://www.axis.com/techsup/cam_servers/tech_notes/browsers.htm
6.2 Assigning the IP address
The ExCam IPM3014 is an Ethernet network camera requiring an IP address to access
it. Usually a DHCP server is integrated in most networks which automatically assigns an
IP address. In case there is no DHCP server available in the network, the ExCam
IPM3014’s default address “192.168.0.90” (subnet masking 255.255.255.0) is used.
With the “AXIS IP Utility“ tool it is possible to determine the IP address with Windows; the
software as well as additional useful tools can be downloaded free from the homepage.
http://www.samcon.eu/en/info-center/drivers-software/
In case it is not possible to assign the IP address, it might be necessary
to change the firewall settings or to consult the network administrator!
The “AXIS IP Utility“ tool automatically recognizes all ExCam devices and displays them
(also subnet overlapping). With this application also the static IP address can be set
manually. In this case, the ExCam IPM3014 network camera should be installed in the
same network segment (physical subnet) as the PC on which the AXIS IP Utility is exe-
cuted.
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 32 of 40
6.3 Password / identification
If not determined differently, the default settings are as follows:
The default user name is: root
The default password is: root
The user can change the password individually; also via an encrypted HTTPS connection
(please follow the indicated steps in the Axis user manual)
7 Maintenance / Servicing / Alterations
The national regulations concerning the maintenance and servicing of electrical devices
within hazardous areas are to be observed.
The required maintenance intervals are specific to the individual devices. The operating
company has to determine these intervals depending on the application parameters. Dur-
ing maintenance, focus has to be put on checking parts concerning the ignition protection
category such as the integrity of the housing, the sealings and the cable glands. If
maintenance measures are necessary they have to be initiated and/or executed.
8 Repairs and Maintenance
Repairs must only be carried out with original parts of SAMCON Prozessleittechnik
GmbH. Damaged pressure-resistant housings have to be replaced completely. If in
doubt, return the applicable part to SAMCON Prozessleittechnik GmbH.
Repairs concerning the explosion protection must only be carried out by SAMCON
Prozessleittechnik GmbH or a qualified electrical technician authorized by SAMCON
Prozessleittechnik GmbH in accordance with nationally applied regulations. Rebuilding of
or alterations to the devices are not permitted.
9 Disposal / Recycling
When disposing of the device, nationally applicable regulations must be observed. This document is subject to alterations and additions.
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 33 of 40
10 Drawings
The drawings below are technical drawings of the T08 ExCam IPM3014 including the
applicable accessories (according to the current revision status). Additional accessories
(q.v. page 12) are available. „DXF“ and „PDF“ files of the technical drawings as well as
various 3D models are available on the SAMCON homepage. Further drawings and
technical documents can be inquired with SAMCON Prozessleittechnik GmbH and will be
provided if applicable.
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 34 of 40
T08-VA1.2.K1.BOR-C-XXX-X-X
Figure 10.1 – Dimensions of the T08 ExCam IPM3014 with K1 flange
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 35 of 40
T08-VA1.2.K2.BOR-C-XXX-X-X
Figure 10.2 – Dimensions of the T08 ExCam IPM3014 with K2 flange
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 36 of 40
T08-VA1.2.K1.BOR-C-XXX-X-X (Installation accessories)
Figure 10.3 – Dimensions of the T08 ExCam accessories (1/2)
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 37 of 40
Figure 10.4 – Dimensions of the T08 ExCam accessories (2/2)
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 38 of 40
Figure 10.5 – T08 ExCam IPM3014 with installation accessories
Figure 10.6 – T08 ExCam IPM3014 with Perspex protection
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 39 of 40
11 Notes
Doc.-ID: 160617-PT08BA-TG-ExCam IPM3014_en_rev.01.docx, page 40 of 40
Schillerstrasse 17, 35102 Lohra-Altenvers www.samcon.eu, [email protected] fon: +49 6426 9231-0, fax: - 31