PCH1026CHF8746

燃料喷嘴安装垫片 314A5326P001
燃烧室端盖安装垫片 318A9713P073
燃烧室后法兰垫片 318A9713P024
火焰探测器垫片 324A9243P001（SOYO手册没查到）
火花塞安装垫片 324A9109P107
燃料喷嘴雾化空气法兰垫片 372A1159P009
雾化空气管环管前入口管段法兰垫片 N5606P04003G11
雾化空气母管垫片 N5606P06003
燃料喷嘴天然气法兰垫片 318A9701P004
天然气软管环管侧法兰垫片 5606P02006G11
天然气环管法兰垫片 N5606P05003G11
联焰管压环盘根 287A1614P004
进气反吹滤网 DONALDSON M0600
燃油伺服阀过滤器 HC9021FDT4Z
"砂滤Poro-Carbon
Tube" 121959
SCANcube, inblicube
The ultra-compact scan heads of the SCANcube series deliver
excellent dynamics and superior SCANLAB product quality in a
minimum-size package. The scan heads of the inblicube series
advantageously combine the features of the successful SCANcube
and inbliSCAN platbs.
Sealed against water and dust, the SCANcube’s and inblicube’s
robust and exceptionally compact housing facilitates straightforward
integration into production environments – even confined,
difficult-to-access bs. A wide variety of bives can be
used with these scan heads.
SCANcube and inblicube scan heads bring success to applications
demanding very fast marking speeds and integration in the
tightest of spaces. Applications include packaging-industry coding
and marking of electronic components, i.e. market domains typically
served in the past by inkjet systems.
The inblicube is also ideal for applications requiring very high
dynamics or the acquisition of important status inbation.
Typical Applications:
? Marking and coding
? Semiconductor and electronics industry
? Processing-on-the-fly
SCANcube 7, 8.5 , 10, 14
Optics
SCANLAB precisely optimizes and tunes
all optical components to one another to
ensure maximum focus quality and stable
process beters. Optical components
offered by SCANLAB include compact
bives, as well as bive mounts
for standard bives. Optics for various
wavelengths, power densities, focal
lengths and image fields are available.
Control
SCAN cube scan heads are equipped
with either an analog or a digital standard
interface accessible via a 25-pin D-SUB
connector.
They are easily controlled via SCANLAB’s
RTC PC interface board or the PC-independent
RTC SCAN alone board from
SCANLAB.
inblicube scan heads are equipped with
a digital standard interface. They are easily
controlled via SCANLAB’s RTC4 or RTC5 PC
interface board. Scan head diagnosis and
all essential configuration beters are
controlled via software commands.
Options
? For optical process monitoring,
SCANLAB offers a camera adapter.
all dimensions in mm
Dimensions SCANcube
Aperture 7 mm 8,5 mm 10 mm 14 mm
Beam displacement 9.98 mm 10.17 mm 12.54 mm 16.42 mm
SCAN cube 7 Beam entrance side
Beam exit side with
SCAN cube 10
Beam exit side
42.52
M79 x 1
(5 deep)
16.42 Beam in
43.58
Beam exit side
99.5
105.5
133.5
SCAN cube 14
SCAN cube 8.5 Beam entrance side
Beam exit side
?13.8
39.5
22.41
Beam entrance side
42.52
43.46
M79x1
(6 deep)
12.54
Beam in
22.41
40.5
?9.8
Beam entrance side
Beam in
10.17
32.69
29.95
M55x1
(6 deep)
29.38
12.9
?8.5
Beam in
9.98
32.5
29.64
M55x1
(6 deep)
14H7
(4 deep)
?6.8
12.9
29.38
94
114
96.5
82.1
90.5
69.5
77.9
78.5
69
inblicube 10, 14
SCANcube or inblicube?
The inblicube and SCAN cube are electrically
and mechanically inter-compatible.
In addition to the 10 and 14 mm apertures,
the SCAN cube series also offers extremely
compact scan heads with 7 or 8.5 mm
apertures. Further the SCAN cube can be
equipped with either a digital or an analog
interface.
The inblicube provides improved dynamic
perbance. And as a direct beneficiary
of SCANLAB’s years of experience developing
digitally controlled inbliSCAN scan
systems, the inblicube also offers all the
advantages of iDRIVE technology: high
flexibility, superior dynamics, real-time monitoring
of actual b and advanced
status inbation, etc.
inblicube scan heads are available with
vector-tuning or step-tuning.
Quality
The high quality of SCANLAB’s scan solutions
is the result of years of experience
in the development and manufacture of
galvanometer scanners and scan systems.
In addition, every scan system must first
pass the SCAN check burn-in test before it
is released for shipment to the customer.
The housing dimensions of inblicube 10 and 14 are identical to
SCANcube 10 and 14.
all dimensions in mm
Dimensions inblicube
Aperture 10 mm 14 mm
Beam displacement 12.54 mm 16.42 mm
Beam exit side
42.52
M79 x 1
(5 deep)
16.42
Beam in
43.58
Beam exit side
99.5
105.5
133.5
42.52
43.46
M79x1
(6 deep)
12.54
Beam in
94
114
96.5
22.41
40.5
?9.8
Beam entrance side
?13.8
39.5
22.41 Beam entrance side
inblicube 10
inblicube 14
1
3
2
1
3
2
Legend
1 Beam in
2 Connector
3 Beam out
SCANLAB America, Inc. · 100 Illinois St · St. Charles, IL 60174 · USA
Tel. +1 (630) 797-2044 · Fax +1 (630) 797-2001
info@scanlab-america.com · www.scanlab-america.com
SCANcube, inblicube
SCANLAB AG · Siemensstr. 2a · 82178 Puchheim · Germany
Tel. +49 (89) 800 746-0 · Fax +49 (89) 800 746-199
info@scanlab.de · www.scanlab.de
Common Specifications
(all angles are in optical degrees)
Dynamic perbance
Repeatability (RMS)
< 2 μrad
Offset drift
< 30 μrad/K
Gain drift
< 80 ppm/K
Long-term drift over 8 hours
< 0.3 mrad
plus temperature-induced gain and offset drift
Optical perbance
Typical scan angle
±0.35 rad
Gain error
< 5 mrad
Zero offset
< 5 mrad
Nonlinearity
< 3.5 mrad / 44°
Power requirements
±15 V DC,
max. 3 A each
(SCANcube 7 max. 2 A)
Interface
Analog version (SCANcube)
±4,8 V
Laser Marking Heads (Laser Scanners, Scan Heads) A whole laser marking head (or called laser scanner) consists of two scan mirrors, two
galvanometers (or called galvo-scanner motor) & drive cards (or called driver), a XY mount, a
scanning lens (f-theta lens), an interface card (or called D/A card), a set of marking software and a
DC power supply.
Basics of 2-axis laser scanners
A laser beam is reflected from two scan mirrors in turn, and directed through a focusing lens. The
mirrors are capable of high speed deflection about a rotation axis, being driven by a galvo-scanner
motor. In most cases the maximum deflection angle of the mirror is ±12.5° (often ±10° is a safer
l imit) either side of the non-deflected incidence angle of 45°.
Note that, for best perbance, the lens will appear to be ‘the wrong way round’ when compared
fwoicthu sain gs otaf nad laarsde rm beenaimsc. us lens used in conventional
Some of the design bives in specification of 2-axis
laser scanners are:
? Achievement of desired scanned field size
? Maximization of scan speeds
? Minimizing focused spot sizes
? Lowest cost solutions
Some of the limitations to be considered are:
? Quality factor Q (Q = M2) of the laser beam
? Scan angle limitations
? Loss of power due to beam-clipping
? Physical aperture of the scanner head
Field of scan
The laser beam will be scanned over an angle ?, equal to twice the mirror deflection angle. So, the
typical scanned field might be ?=±20° in both X and Y directions. (?=±25° would be the usual
maximum scanned field). The field size is then approximaby 2Ftan?? in both X and Y.
The approximation arises because:
1) it is usually desirable to have a deliberate distortion characteristic in the scanner lens design so
that the field b is proportional to ?, not tan?.
http://www.sintec.sg  .sg 2
2) scanning in two axes produces a geometrical distortion which is unrelated to the lens properties.
Focused spot size
The lower limit on spot size ‘d’ (1/e2 intensity diameter) for a laser beam of diameter ‘D’ (1/e2) is:
d = 13.5QF/D ?m
Example: A TEM00 beam (Q=1) of 13.5mm (1/e2) diameter, focused by a perfect lens of 100mm
focal length, will b a focused spot of 100?m diameter. (Taking a more realistic value of Q=1.5,
the spot size would be 150?m).
Beam clipping and optical aberrations can lead to focused spot sizes which are larger than the
minimum diffrb limited value found from the equation above.
Large field sizes demand the use of lenses of long focal length. In turn, this leads to increased
focused spot size unless the beam diameter, mirror sizes, and lens diameter are all increased.
Spot sizes are given in the b of an average spot size over the whole, maximum, field-of-scan. A
second figure, the standard deviation from average spot size, gives a measure of variation of the
spot size to be expected over the field.
Beam clipping
The physical aperture of a laser scanner is often limited by a circular aperture of the scanner head,
of diameter ‘A’ mm, say.
Beam clipping can occur at a circular aperture, even for a well-centred beam, when the ‘tails’ of the
beam energy distribution is blocked by the blwork. The percentage power loss at a circular
aperture, for a TEM00 beam (Q=1) is shown in the following table:
Table: Power Loss
A/D 0.8 1 1.2 1.4 1.6 1.8 2
Loss % 27.8 13.5 5.6 1.98 0.6 0.15 0.03
The table indicates that, where the physical aperture of the scanner is limited to A mm diameter,
the laser beam diameter D (1/e2) must be selected by a compromise between reduced spot size
and power loss due to beam clipping. A value of D = A/1.4 would probably be acceptable for most
laser scanner systems. Power loss due to beam clipping increases for de-centred beams.
Mirror design
Mirror (1) (or called Scan Mirror X)
The b of mirror (1) is determined by the beam diameter. It is easier to discuss this in terms of a
‘full beam diameter’ DF, where the definition of full diameter is, to some extent, arbitrary.
For example, a system designer might define DF as the measured diameter of a beam print in
perspex [plexiglass]. Alternatively, DF may be the measured 99% power points, or perhaps a value
chosen in the range 1.4D to 1.6D.
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the scan angles, and the need that the mirrors should not collide during scanning.
Mirror (2) (or called Scan Mirror Y)
http://www.sintec.sg  .sg 3
The b of mirror (2), W2, should be identical to the length of mirror (1). The length, L2, of mirror
(2) is found from projection of the beam onto the second mirror at a distance of S1, and at
maximum scan angle ?. These mirrors are built and coated specifically for use with CO2 or YAG
lasers. They have a very high laser damage threshold, measured at 1000W/mm of 1/e2 beam
diameter (D).
F-theta characteristic
Lenses described as being ‘F-theta’, or ‘F?’, type are designed so as to produce an off-axis spot at
a b proportional to the scan angle. In turn, this may be directly proportional to a voltage
applied to the galvo scanner motor. (A lens with zero distortion would b a spot at a field b
of Ftan?). No 2-axis galvo scanner can have a true F-theta characteristic, due to distortion from
use of two mirrors. Single-element lenses are designed to be the best compromise between
smallest spot size and F-theta characteristic. Errors in F-theta characteristic are usually 2% - 3%
for these single element lenses. Multi-element lenses allow design freedom enabling a closer
aFpLp tryopaec hha tvoi nFg- tah estlaig phbyrf ogrrmeaatnecr ev.a Flu?e .e rrors <0.36% are typical for this range, with only the 75mm
Lens design
All scanning lens designs are based on factors described above. For typical small scanner
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distances S1 and M2L. Each class of lens is designed for use with a specific range of beam
diameters, and, more importantly, for a specific set of values S1 and M2L.
In each case the lens is designed to provide the best compromise perbance for flat field, spot
size and F-theta characteristic for the specified beam diameter and mirror bs, while avoiding
beam-clipping at the lens mount.
For certain (longer focal length, single-element) lenses it is possible to obtain an improvement in
dpiearmfoermtear n(tcoe abvyo iidn cbreeaamsi ncgli pthpein gd)is. tance M2L. This necessitates the design/use of lenses of larger Marking software
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CorelDraw to design their patterns. They also can scan photos or logos and then use marking
software to mark. How to Properly Select Marking Head, Beam Expander, Scan Mirror, F-theta Lens and Laser
Hmearxeim lausmer a blleoawme dd iianmpuett ebre iasm D d1i,a bmeeatmer doifa msceatne rm aifrtreorr sb eisa Dm3 e, xmpaaxnidmeur mis aDll2o,w beeda minp euxtp baenasmio nd iraamtioe tiesr T ,
of marking head is D4, Entrance pupil of f-theta lens is EP. D3 ? D1?T or D4 ? D1?T or EP ? D1?T
pMraorpkoinrtgio fniealld t ois f porcoapl olerntiogntha l( otor wfoocrakli nlegn dgitsht a(onrc ew)o. rking distance) and focused beam diameter is also
Part Number Debion of Marking Head
Debion of Part Number: LSxx-xxxx-yy-AAAA
xLxSxxxx:: lalasseerr wsacavenlneenrg. txhx. m eans series marking heads such as CT, SL, LC, JC.
yy: maximum b laser beam diameter.
AAAA: notes or remarks
http://www.sintec.sg  .sg 4
Part number Max entrance
dia. mm
Model of
galvo
Dimension
LxWxH,mm Control
LSCT-xxxx-12-6230 12 CTI-6230 165x125x125 Analog b
LSCT-xxxx-12-6231 12 CTI-6231 165x125x125 Analog b
LSSL-xxxx-7-XS 7 OSSL-XS 79x69x78 XY2-100
LSSL-xxxx-10-S 10 OSSL-S 115x97x94 XY2-100
LSSL-xxxx-10-BC10 10 OSSL-S 106x91x91 XY2-100
LSSL-xxxx-14-M 14 OSSL-M 134x100x106 XY2-100
LSLC-xxxx-10-DIGI 10 115x97x97 XY2-100
LSJC-xxxx-10-2206 10 119x97x94 XY2-100
LSJC-xxxx-14-2208 14 126x98x105 XY2-100
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Remark:
? The marking field of marking head depends on the f-theta lens. In general, it is 105x105mm (CO2
laser) or 110x110mm (Nd:YAG laser). Other mark fields are available upon request. In order to
vhaarvieou bse aspt pmlicaarktiionngs r.e sult, you may prepare a few f-theta lenses with different mark fields for your
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beters such as marking speed and material.
? All above analogue marking heads can be converted into digital marking heads via a D/A convertor.
http://www.sintec.sg  .sg 5
LSSL Series Laser Marking Heads Portable size, Fast speed, High accuracy
LSSL-7-XS, -10-S & -14-M LSSL-10-BC10 Typical Fields of Application:
?-> Marking in the packaging sector
?-> Semiconductor industry
?-> Electronics industry
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made possible by the new, miniaturized servo amplifiers and industry-proven OSSL series
galvanometer optical scanners. Aperture of 7, 10 and 14mm are available.
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wide variety of bives can be used with these scan heads.
Versions with analog or digital interfaces are available. The digital version can be simply controlled via
a PCI interface board or PC-independent standalone board. LSSL scan heads are ideally suited for
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b y inkjet systems. Optics
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dobejnescittiiveess, ,f oacsa wl leenll gatsh so bajnedc tiimvea gaed afipetledrss aforer satvaanildaabrlde .o bjectives. Optics for various wavelengths, power Control
LSSL marking heads are equipped with either an analog or a digital standard interface accessible via a
25-pin D-SUB connector. They are easily controlled via PC interface board or the PC-independent
standalone board from us. Quality
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quality check burn-in test before it is released for shipment to the customer. Common Specifications (all angles are in optical degrees)
Dynamic Perbance
Repeatability < 22μrad
Offset drift 30μrad/K
Gain drift 80ppm/K
http://www.sintec.sg  .sg 6
Long-term drift over 8
hours
< 0.3mrad, plus temperature induced gain and
offset drift
Optical Perbance
Typical scan angle ±0.35rad
Gain error < 5mrad
Zero offset < 5mrad
Nonlinearity < 3.5mrad
Interface Analog version ±4.8 V
Digital version XY2-100 standard
Operating Temperature 25 °C ± 10 °C
Product-Dependent Specifications (all angles are in optical degrees)
Part number LSSL-xxx-7-XS LSS SL-xxx-10- LBSCS1L0- xxx-10- LMS SL-xxx-14-
Aperture 7mm 10mm 10mm 14mm
Beam displacement 9.98mm 12.54mm 12.54 16.42mm
TDryancakminigc ePrerorfro rmance 0.14ms 0.18ms 0.14ms 0.30ms
Step Response Time
(1s%et tolifn fgu ltlo s 1ca/1le0 00 of full scale)
10% of full scale
0.30ms
0.70ms
0.40ms
1.2ms
0.35ms
1.0ms
0.65ms
1.6ms
Typical speeds
PMoasrkitiionngi nspge sepde e d
qWuraitliintyg speed with good writing
Writing speed with high writing
quality
12.25.m0m/s/ s
900cps
600cps
27..00mm//ss
640cps
400cps
12.25mm/s/s
800cps
570cps
17..00mm//ss
410cps
280cps
Power Requirements ±15VDC
max. 2A each
±15VDC
max. 3A each
±15VDC
max. 3A each
±15VDC
max. 3A each
Weight (without bive) 650g 1.9kg 1.5kg 2.3kg
http://www.sintec.sg  .sg 7
http://www.sintec.sg  .sg 8
URL:  E-mail:  9
Laser Marking Dual-Heads
Dual-head using 2pcs single LSSL marking heads
Dual-head laser marking head consists of two individual single marking heads and a beam splitter. A
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dual-head marking head is controlled by a specific software and the two single heads can be operated
rseyqnucihrero hnioguhs slyp eoer din adnedp leanrgdee nmtlya.r kTinhge fdieulda.l -head marking heads are suitable to the applications which
The specifications of the dual-head marking heads are same as the specifications of the single marking
hheeaadd except the doubled marking fields. For example, the marking field will be 200x100mm if the single ’s marking field is 100x100mm.
We can supply the dual-head marking heads operating with CO2 lasers, Nd:YAG lasers and fiber lasers.
URL:  E-mail:  10
LSLC Series Scan Heads & Software
Digi-Cube II is the new inbligent, self tuning digital Laser Scan Head
with the technologically advanced digital processor
Digi-Cube II has been designed for easy OEM design integration and plug-and-play replacement for existing analogue scan heads with industry standard mechanical bolt patterns, industry standard power and communication
pinouts as well as a range of popular apertures, mirror coatings and lenses. The Digi-Cube II uses XY2-100
Communication Protocol as standard.
Other digital scan heads available on the market, which are many times more expensive, cannot begin to the
mmaotdcehl sp arincde iat’nsd a lpseor fIoPr5m5a rnacteed o. f the Digi-Cube II. In fact this new Laser Scan Head costs less than most analogue
The Digi-Cube II operating system uses DSP technology to rapidly compute and predict the exact drive impulses
required to achieve small mirror movements with the fastest possible acceleration.
Ithn ef alacwt tsh eo fo pnhlyy sthicisn.g O thnacte r tehsetr iDctisg i-thCeu bsep eIIe ids oswf tihtceh egda lvoann, oitm peetrefor r(m asn a i mdeptraeislesdiv see 1lfK d iiamgpnroessissi oannsd pseyrs tseemco cnhde c) ka rteo
determine the operating beters of the individual galvos. This ensures the accuracy and bing of the laser
marking is precise and error free – something that cannot be guaranteed with analogue models which often have to
undergo complicated manual recalibration procedures after prolonged use. This is particularly important in the
marking of components in the semi-conductor industry where bal accuracy is bount. If speed, accuracy,
cost-effectiveness and long term reliability are your requirements –– the Digi-Cube II is the inbligent choice.
Improved Perbance
Where marking time is limited by galvo perbance, rather than laser power, a 50% to 100% speed improvement
could be expected.
Benefits
? Increased productivity with significantly faster scan speeds
? Fits easily into any new or existing production line
? ‘Plug-and-Play’ system simplifies installation and compatibility
? analoMguuech s cloawn ehre haeda t generation than other DSP scan heads, the Digi-Cube runs as cool as a typical
? Improved dynamic perbance
? Fast ‘On the Fly’ processing
URL:  E-mail:  11
? Small mirror moves without waiting for feedback
? Simpler and faster set-up
? Scale & offset pot only
? Most cost-effective and unbeatable b of increasing perbance of your scan heads
? Automatic tuning checks when powered up
? Compatible with analogue scan heads using the XY2-100 protocol
? Reduced temperature drift
? waterR obust IP55 rated case for protection against particle ingress and a good level of protection against
Improved Field Serviceability
As the Digi-Cube has self tuning technology it is now possible to replace just the scanners or the mirrors. This
eliminates the expense of either calling out a service technician to tune in replacements or the need to return the
scan head to base.
This saves both time and money – and enhances your system’s reputation and decreases downtime for your
customers.
Typical applications
? High Accuracy Laser Marking
? Scribing / Engraving
? Welding
? Photovoltaic Production
? Trimming
? Rapid Prototyping
? On the Fly Processing
? Laser 3D Printing
? Scanner Control Systems in medical equipment
DigiCube II Specifications ( DSP controlled 10mm XY Scan Head )
Laser wavelength 1064nm
Beam entrance diameter 10mm
Power supply requirement +24/-24V 4A
Maximum current drive to galvo 10A
Quiescent power draw ( no marking ) <10W
Positioning speed m/s 10 - 20
Marking speed m/s 3 - 6
Precision writing cps 500
High quality writing cps 1000
Resolution urad 10urad
1% step response setting to 0.1% fs 0.28ms
Scale drift ppm/C <40
Zero drift urad/C <10
Linearity % 99.9
Short term repeatability urad <8
Dither RMS <10urad
Weight 2.2kg
Dimensions A97MM, B115mm, C97mm,
D15mm, E30mm, F90mm
URL:  E-mail:  12
DIGI-STRUCT Laser Marking Controller
? Increases productivity & flexibility
? Saves time & material
? Easier to customise
? Minimises downtime
? Eliminates programming error and interference with laser marking
The laser marking controller consists of E1701D scann er controller baseboard plus optional extension boards. The E1701 scanner controller boards are designed for controlling galvanometric scanner systems
with two or three axes. Depending on the used extension boards (which are optional) they also supply
extensive signals for laser and external control. The communication between the host system and the
controller boards is done via Ethernet or USB.
When using E1701 scanner controller boards, there is always one
baseboard required for proper operation.
This baseboard can be used together with different extension boards that
provide additional signals for
controlling the laser marking process. These extension boards are optional
and have to be used only in
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minimal solution to control a laser marking system may consist of the
baseboard only.
Normally extension boards can be combined with any baseboard and all other extension boards freely, there
are no restrictions for usage. In case some specific extension board types can’t be operated with other
boards, Normally an E1701 baseboard can be combined with several extension boards of different types but
not with more than one board of same type. In case of special extension boards where more than one board
of the same type can be used, this is stated in debion of the related boards below.
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E1701D XY2/100 Digital Laser Scanner Controller Baseboard
This baseboard can be used to control 2D or 3D scanheads that come with a XY2/100 interface. It can be
combined with extension boards without any restrictions. E1701D offers following features:
? XY2/100 interface to scanhead with X, Y and Z channel
? 100 Mbit Ethernet connection
? USB 2.0 connection
? online XYZ grid correction with support for several correction table file bats (like SCAPS(tm) .ucf,
? Scanlab(tm) .ctb and .ct5, Raylase(tm) .gcd)
? switching between up to 16 grid correction tables during marking process
? high-definition online XYZ grid correction with BeamConstruct HD correction files (.bco)
? 10 microseconds vector cycle time and resolution (microstep period)
? command execution time down to 0,5 microseconds
? realtime processing of laser and scanner signals
? 26 bit internal resolution (for better quality also with 16 bit hardware output)
? can control nearly every laser type (this may require extension boards as described below)
? two laser CMOS digital outputs for usage with YAG, CO2, IPG(tm), SPI(tm) and compatible laser types
? (outputs can provide PWM frequency, Q-Switch, FPK-pulse, CW/continuously running frequency,
? stand-by frequency) running with frequencies of up to 20 MHz
? 512 MByte DDR3 RAM
? 1 GHz CPU clock
? support for Micro-SD and Micro-SDHC cards
? internal command and vector data list with more than 20 million entries
? continuous list concept, no need to swap between lists
? BeamConstruct PRO license included
? open source compatibility library that emulates existing programming interface for fast and easy usage
? with existing software (contains e.g. Scanlab, RTC4), SCAPS, USC/SCI and other compatible interfaces)
E1701 LP8 Extension Board
This board can be used to provide signals for controlling a wide range of laser types. It offers following
features:
? LP8 8 bit CMOS level parallel digital output e.g. for controlling laser power
? LP8 latch CMOS level digital output for usage with IPG(tm) and compatible laser types
? Master Oscillator CMOS level digital output for usage with IPG(tm) and compatible laser types
? 8 bit 0..5V analogue output e.g. for controlling laser power (this output is a slave of LP8 outputs)
? two laser CMOS level digital outputs for usage with YAG, CO2, IPG(tm), SPI(tm) and compatible laser
? types (outputs can provide PWM frequency, Q-Switch, FPK-pulse, CW/continuously running
? frequency, stand-by frequency) running with frequencies of up to 20 MHz
E1701 Digi I/O Extension Board
This board provides additional digital in- and outputs for synchronisation and communication with external
equipment. It offers following features:
? 8 freely usable digital outputs providing either CMOS level or electrically insulated outputs via
? external power supply
? 8 freely usable digital bs expecting either CMOS level or electrically insulated bs via external
? power supply
? 2 digital bs usable for quadrature encoder signals for marking on-the-fly applications
E1701 Secondary Head Extension Board
Using boards of this type additional heads can be connected which then work in parallel to the first scanhead
of E1701D baseboard. So as only output it provides an additional XY2/100 connection.
The Digi-Struct is feature rich software platb that provides a user-friendly layout with an easy-to-use and
powerful toolset for the creation of laser marking programmes and control of Digi-Cube laser scan heads to further
maximise productivity and reduce production costs
A vast array of different one d imensional and two
dimensional codes are available from installation
including QR codes, Datamatrix UPC and EAN.
Supports TrueType fonts, including Unicode,
and a variety of different b styles.
Fulfils the demands of an ever more bised
identification and labelling market. Digi-Struct also
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comes with 11 different laser vector fonts providing legible characters in the fastest possible timeframe.
A large number of different date and time options are
available.
Provides the ultimate flexibility of date and time coding while
remaining simple to use through a date/time wizard.
Customisable date/time bs can also be made using a list
of easily entered commands with minimal syntax.
Provides a variety of line styles, giving you full control of
the laser marking process.
Perforation of pieces can be achieved by a few clicks of a
mouse and custom line styles are available to perb specific
tasks.
Supports images and artwork in a variety of standard
bats including .dxf and .b.
Makes adding logos and images to products quick and easy.
With no tooling to consider, brands and logos can be changed,
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possible.
By utilising the automated test matrix tool, a number of different effects created by the laser source can be
marked on to a single swatch of sample material and can easily be identified and refined using the grid within
the automated test matrix.
3D capabilities allows for subtractive 3D printing( removing material instead of adding ).
Utilises a versatile ‘Slicing’ system, breaking down a complex 3D project into easy-to-handle 2 dimensional
layers.
Scan Head Controller – Software Board & Extension Boards
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efficiently.
YAG and CO2 lasers are supported out of the box, whilst the easy-to-connect extension boards can be
added to interface with fibre laser sources such as IPG?, SPI?, iLuma?, Raycus and all other commercially
available laser sources.
The Digi-Card sports a 100Mb Ethernet connection allowing for the rapid transfer of data between a PC and
the laser control software which is stored on the 4GB micro SD card containing all the laser marking
programmes. The programmes can then be selected by software commands or by utilising the I/O expansion
board.
Control Box
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These programmes can then be downloaded on to a micro SD card and inserted into the Digi-Link Control
Box.
When the Digi-Card Scan Head Controller Board is connected to the Digi-Link it allows the user to select the
appropriate programme and externally control laser stop/start functions, removing the need for a
Laptop/Desktop on the shop floor -saving time, eliminating programming error and preventing any
unauthorised access or interference with the laser marking.
The Digi-Link control box can also receive instructions via an Ethernet connection allowing full factory
integration.
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Marking Card and Marking Software
Our marking software has been designed to meet the needs of all types of users of laser marking
systems. The software was developed to be a retrofit package for existing systems, or as original
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PC control system providing a user the ability define and execute laser marking jobs. Multiple hardware
interfaces are supported giving the software the ability to control most Nd:YAG and CO2 laser marking
systems.
Unlike some marking software, the operator never has to remember what fonts and logo's need to be
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software provides all of the flexible, graphic control users are accustomed to, including radial marking,
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Type fonts can be vector filled using user specified density, angle and kerf. Graphics (sometimes called
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(such as PLT & BMP files), automatic date coding and alphanumeric serialization.
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LMX Marking Control Card is especially developed for scan head
and laser control in real time with a PCI bus interface. It is used
with cor responding software to control laser marking.
● 2 analog output ports ( for scan head );
● 1 laser switch signal(TTL);
● 1 PWM signal(TTL);
● 9 digit b signals;
● 4 output signals(relay output);
● 2 differential mode axes control for step/servo motor;
● 1 single ended mode axe control for stop/servo motor;
DB37: Pin Assignments
No. Name Debion Characteristics
1 CP1+ 1st pulse+ signal
2 DIR1+ 1st direction+ signal
3 AGND Analog GND Analog
4 X-OUT Scanning mirror X output Analog
5 CP2+ 2nd pulse+ signal
6 CP2- 2nd pulse- signal
7 CP1- 1st pulse- signal
8 IN0 0 b signal
9 12V GND Power 12V GND
10 5V GND Power 5V GND
11 Input 5V Input 5V
12 COM1 Relay1 COM
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13 COM3 Relay3 COM
14 NO4 Relay4 normal open port
15 NO2 Relay 2 normal open port
16 IN2 2 b signal
17 IN6 6 b signal
18 IN3 3 b signal
19 IN4 4 b signal
20 CP3 3rd pulse signal
21 DIR3 3rd pulse signal
22 PWM PWM signal TTL
23 Y-OUT Scanning mirror Y output Analog
24 DIR2- 2nd direction- signal
25 DIR2+ 2nd direction+ signal
26 DIR1- 1st direction- signal
27 GATE Laser output signal in YAG laser TTL
28 5V Power 5V
29 12V Power 12V
30 IN1 1 b signal
31 NO1 Relay1 normal open port
32 NO3 Relay3 normal open port
33 COM4 Relay4 COM
34 COM2 Relay2 COM
35 IN5 5 b signal
36 IN7 7 b signal
37 IN8 8 b signal
Model and debion:
Model Main function
LMX-1 2D marking to control X galvo and Y galvo
LMX-1A 2D marking to control X galvo and Y galvo plus rotation table
LMX-1AB 2D marking to control X galvo and Y galvo plus XY table
2. LMM Series Cards and Software
LMM Marking Control Card is especially developed for scan head and fiber laser control in real time
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● 2 analog output ports ( for scan head );
● 11 digital output signals, TTL/CMOS compatible;
● 7 digital b signals TTL/CMOS compatible;
● 1 PWM signal output (TTL).
There are following main functions of LMM marking software:
? Operation under WINXP／2000
? Acceptable for PLT and BMP
? Support drawing such as circle, rectangle, line etc.
? Support the edit of SHX and TTF fonts
? Barcode, 2D DataMatrix, series numbers, date, time
? Support the layers up to 8
? Save of all system beters
? Support copy, delete, replace, move etc
? Support mirror, hatch, group
? Set pulse repetition rate, pulse duty factor
a?n dC IoPnGtr oelt c O. N/OFF, laser power of CO2 lasers from Synrad, Coherent, Universal Lasers, Manlight DB37: Pin Assignments
No. Name Debion Characteristics
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1 CP1+ 1st pulse+ signal
2 DIR1+ 1st direction+ signal
3 AGND Analog GND Analog
4 X-OUT Scanning mirror X output Analog
5 CP2+ 2nd pulse+ signal
6 CP2- 2nd pulse- signal
7 CP1- 1st pulse- signal
8 IN0 0 b signal
9 COM Relay Comm
10 GND GND
11 NO Relay NO
12 D0
13 D2
14 D4
15 D6
16 NC Relay NC
17 Temp Alarm Temperature
18 Alarm MO Alarm MO
19 Frequency Alarm Frequency
20 CP3 3rd pulse signal
21 DIR3 3rd pulse signal
22 Pulse Repet Pulse Repe TTL
23 Y-OUT Scanning mirror Y output Analog
24 DIR2- 2nd direction- signal
25 DIR2+ 2nd direction+ signal
26 DIR1- 1st direction- signal
27 PA Power Amplifier(PA) TTL
28 5V 5V
29 Red Light Red Light TTL
30 IN1 1 b signal
31 D1
32 D3
33 D5
34 D7
35 Back Ref Alarm back reflection
36 MO Master Oscillator(MO) TTL
37 ES Emergency Stop TTL
Model and debion:
Model Main function
LMM-1 2D marking to control X galvo and Y galvo
LMM-1A 2D marking to control X galvo and Y galvo plus rotation table
LMM-1AB 2D marking to control X galvo and Y galvo plus XY table
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3. ETH6608 Series Cards and Software
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be downloaded by using a RJ45 interface with default
I1P9 2a.d1d6r8e.s1s.X 1. 92.168.1.55, and the PC to be set under
Due to the configuration flexibility, there are four
models available to different requirements:
ETH6608A1_5/10, to control 1 analog scanner via ±5/10VDC
ETH6608A2_5/10, to control 2 analog scanners via ±5/10VDC
ETH6608A1D1_5/10, to control 1 analog scanner via ±5/10VDC, and 1 digital scanner
ETH6608A2D1_5/10, to control 2 analog scanners via ±5/10VDC, and 1 digital scanner
In its standard configuration, the ETH6608 consists of a base board with the following features:
? 100MBits Ethernet connection
? Compatible with digital scanner head
? Four 16-bit DAC output, selectable voltage output to control analog scanner
? 16 channels TTL compatible digital b
? 21 channels TTL compatible digital output
? 6 channels hardware limit bs, to control motion
? Special instruction for pulse number
? 1 differential PWM output, minimum 10ns pulse b
The board dimensions and layout
Legend:
CCOONN12:: PDoigwitearl s5cVaDnCne 3r Ah,e 2aPdi,n X sYo2c-k1e0t 0 CON3: Analog scanner head
CCOONN45:: LEathseerrn IeOt, &R PJ4W5 Mco onuntepcutte r
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Electrical connections
1T hPeo pwoewr esru spopulyr ce is connected to a 2-pin “CON1” header on the board, 5VDC 3A power source is
required to operate this unit.
Port Debion Remark
1 +5V +5VDC
2 GND Return
2A Dmigaileta lD s-cSaunbn 1e5r pins connector headed with “CON2”, digital scanner head can connect to this port with
protocol of XY2-100, while an analogue scanner works with external DAC by connecting to this port.
Pin Debion Pin Debion
1 CLK- 9 CLK+
2 SYNC- 10 SYNC+
3 XCH- 11 XCH+
4 YCH- 12 YCH+
5 ZCH- 13 ZCH+
6 NC 14 NC
7 NC 15 GND
8 GND
* 3 axis digital scanner works only ZCH-/ZCH+ are connected. Twisted cable is strongly recommended.
3 Analog scanner CON3
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Pin Debion Pin Debion
1 DOUT3 2 DAC4
3 DOUT2 4 AGND
5 DOUT1 6 DAC3
7 DIN1 8 AGND
9 DIN2 10 DAC2
11 GND 12 AGND
13 VCC+5V 14 DAC1
15 NC 16 AGND
4H eLaadseerr mcoanrtkr o“lC ON4”, provides predefined or general IOs for laser and peripheral devices. Total 14 DIs,
18 DOs and 2 PWM outputs are available located on a female DB37 connector. 1 PWM is configured
as differential output.
No. General Defined For Fibre Laser Remark
1 VCC+5V VCC+5V +5V output
2 PWM3- PRR RETURN Return of PWM3+
3 PWM2
4 DOUT7 ES Emergency stop
5 DOUT9 RED ON Red beam
6 DOUT11 D0 Power setting LSB
7 DOUT13 D2 Power setting
8 DOUT15 D4 Power setting
9 DOUT17 D6 Power setting
10 DOUT19
11 DOUT21
12 GND GND Return of signal
13 DIN4
14 DIN6
15 DIN8 MO ALM Master oscillator alarm
16 DIN10 BK ALM Back reflection alarm
17 DIN11
18 DIN12
19 DIN16
20 DOUT4
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21 DOUT5
22 PWM3+ PRR Pulse repetition output
23 DOUT6 GATE Laser ON
24 DOUT8 MO Master Oscillator
25 DOUT10 PA Power Amplifier
26 DOUT12 D1 Power setting
27 DOUT14 D3 Power setting
28 DOUT16 D5 Power setting
29 DOUT18 D7 Power setting MSB
30 DOUT20
31 DIN3
32 DIN5
33 DIN7 TEMP ALM Temperature alarm b
34 DIN13
35 DIN9 FREQ ALM Frequency alarm b
36 DIN15
37 DIN14
4. LMC Series Cards and Software Our marking software has been designed to meet the needs of all types of users of laser marking
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interfaces are supported giving the software the ability to control most Nd:YAG, CO2 and fiber laser
marking systems such as adjusting currents, frequency, duty ratio . and red light indication.
Unlike some marking software, the operator never has to remember what fonts and logo's need to be
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fixed or variable. Variable text can be retrieved at runtime from a variety of sources including, the
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Type fonts can be vector filled using user specified density, angle and kerf. Graphics (sometimes called
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(such as line, rectangle, round-corner rectangle, polygon, circle, ellipse etc), complex graphic bs
(such as PLT & BMP files), automatic date coding and alphanumeric serialization. Digital card (control CO2 laser, YAG laser)
? Data transfer:usb2.0 interface
? Digital output used for scan head
? Support FPK with three ways [optional]
? Support high-speed fly marking with rotary
encoder
? Eight digital b and seven digital output
used for other controlled equipment
? c2o5m ropuatteibsl eg)e, n4e oraf lt hdeig IiOta l psoigrtnsa clsa(nT TbLe OC IO,
can connect with relay.
? LASER Signal: TTL, used for laser On/Laser
Off .
? fPreWqMue Sncigyn aanl:d T dTuLt,y u rsaetido .t o adjust the
? Tow Direction/Pulse signals, used to control
URL:  E-mail:  21
stepping motor.
? START Signal: used to connect foot switch SPI G3.0 card (control SPI laser)
? Use 68-pins SCSI 3 socket, connect SPI G3 laser module via 68-pin cable directly
? Adjustable digital/analog output used for scan head
? Mark-on-fly function with an encoder connected
? Extend axes output: Two Direction/pulse signals, used to control stepping motor or servomotor
? 25 routes general digital signals(TTL compatible), 4 of the IO ports can be OC IO, can connect with
relay
? Original start signal: Used when marking contents are the same and high speed is required
? Compatible with USB2.0 IPG CARD (control IPG-YLP laser and IPG-YLPM laser)
? Use 25-pins DB25 socket, connect IPG YLP and YLPM laser mod ule via 25-pin cable directly
? Adjustable digital/analog output used for scan head
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? Mark-on-fly function with an encoder connected
? Extend axes output: Direction/pulse signals, used to control stepping motor or servomotor
? 25 routes general digital signals(TTL compatible), 4 of the IO ports can be OC IO, can connect with
relay
? Original start signal: used when marking contents are the same and high speed is required.
? Compatible with USB2.0
Dynamic focus board
? Dynamic focus .three digital output for scan head
? Support FPK with two ways (optional)
? 6 routes digital b and 6 routes digital output
? LASER signal : TTL, used for laser on/laser off
? PWM signal: TTL ,used to adjust the frequency
and duty ratio
? Direction/pulse signals ,used to control stepping
motor or servomotor
? (DoBp2tio5n caol)n nector used for IPG YLP laser directly
? Compatible with USB2.0 PCI Board (control CO2 and YAG laser)
PCI-7F board (control fiber laser)
5. DA Converter Board
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There are two types: ->2 channel: supports 2 channels output, and the digital protocol has not extended coding, which is
labeled as “20071012-V101”;
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->3 channel: supports 3 channels output, and the digital protocol has the extended coding, which is
labeled as “20080107-V103”.
Connector’s debion:
CON1 (DB15):
Pin No. Signal name Illustrations
1，9 CLK-/CLK+ Clock signal. Differential output
2，10 SYNC-/ SYNC+ Synchronized signal. Differential output
3，11 XChannel-/ XChannel+ Digital signal of X axis galvo. Differential output
4，12 YChannel-/ YChannel+ Digital signal of Y axis galvo. Differential output
5，13 ZChannel-/ ZChannel+ Digital signal of Z axis galvo. Differential output
6，14 Status-/ Status+ The state feedback signal of Galvo. Differential b
8，15 Gnd The reference ground of control card.
For usual three-dimension Galvo, only connecting CLK, SYNC XChannel, Ychannel, Zchannel with ten
signal lines is enough. A twisted-pair cable for connecting for digital signal is strongly recommended. CON2: Power socket
CON4—CON6: Analog Vol tage signal
The default range of output voltage is ±5V. For single interface drive, connect pin 1&3, the voltage is
±5V. For differential output drive, please connect pin 3&4, between which the voltage is ±10V.
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Model and debion for LMC boards:
Model Main function
LMC-PCI-7 2D marking to 2D analog galvos plus 2 axes (rotary stage, on-fly, Z-axis or
XY-axis) to control CO2 or YAG laser.
LMC-PCI-7F 2D marking to 2D digital galvos plus 1 axis (rotary stage or Z-axis) to control
fiber laser.
LMC-USB-DIGIT aDxigisit aolr cXaYrd-a, xtois c) oton tcrooln 2trDol dCigOit2a lo gr aYlvAoGs lpalsuesr 2. axes (rotary stage, on-fly, ZLMC-
USB-IPG Fiber digital card, to IPG fiber lasers, 2D marking to control 2D digital galvos
plus 2 axes (rotary stage, on-fly, Z-axis or XY-axis)
LMC-USB-SPI pFliubse r2 d aigxietasl (craortadr, yt os tSaPgIe f,i boenr- fllay,s eZr-sa,x i2sD o rm XaYrk-ainxgis t)o control 2D digital galvos
LMC-D/A D/A conversion card, to convert 2 b digital signals into 2 output analog
signals , which are used to drive analog galvos.
TRheem baorka:r d s always come with 2D marking to control 2D galvos plus one axis (rotary or Z-axis). On-fly
and XY-axis are available upon request at additional cost.
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ST-DAC-XY2-CD DA Converter ST-DAC-XY2-CD series DA converter is an integrated product for digital to analogue single conversion,
teole ecntraicbalel nhoigishee.r marking accuracy and long distance signal transmission which is less susceptible to
Interface: Digital Singal Input
uTsheisd sfeorri edsig DitaIGl sITigAnLa lS iInGpNutA aLc IcNoPrdUinTg ctoon tnheec tXoYr 2is-
100 standard. The pin-out of this is shown right.
The DIGITAL SIGNAL INPUT connector is also
used for connecting the converter board to a
1p5oVw.e r supply with balanced power source of DC+/-
This board draws approximaby 50mA from pins
17, 18, 19 and approx. 20mA from pins 23, 24, 25.
cHoonwneevceter,d wanhde no pderriavetinr gb, othaerdn 1a.n5dA issc raenqnueirresd afroer
each of X and Y axes.
Digital Singal Input
Interface: Power Output
DC+/-15V power to the two driver board is provided by
tAhNesAeL OcoGn nPeOcWtorE iRs sohuotpwunt caosn rnigehctt ofirgsu.r Te.h e pin-out of
cTohnen AeNctAorLsO pGro PvOidWe aEnRa lOogF oXu&tpYu at xsiisg noault pinu tth e range
bofo -a5rVd. to +5V for controlling the scanners via driver Power Output
APU空压机滤网 ERVOR  7202601
汽机润滑油滤网 PH718-11-CNVGE
汽机MCV伺服阀滤 R928023131
汽机ACV伺服阀滤 266B1869   安哥拉燃机配件
I20180904016 工具袋 SDBAG2 STOPDROP TOOLING 5
I20180904016 工具箱腕带 SDWSCOM1 STOPDROP TOOLING 8
I20180904016 工具绳索 SDCOIL1 STOPDROP TOOLING 8
I20180904016 工具绳带 SDLANWEB STOPDROP TOOLING 8
Standard Sensor
Attachment #3
1
305122901S
305122901S
Alco Automation
1
EA
EMERSON
8
Contaminant Trap Cartridge (bottle of 10)
Attachment #3
2
305527901S
305527901S
Alco Automation
1
EA
EMERSON
9
Glycol & Liquid Trap Separator Membrane ReplacementKit
Attachment #3
3
305529901S
305529901S
Alco Automation
1
EA
EMERSON
10
7 Micron Filter
Attachment #3
4
305448901S
305448901S
Alco Automation
2
EA
EMERSON
11
2 Micron Filter, inline 1/8 inch tube
 
 
203641000
 
 
2
EA
EMERSON
12
Fuse 3A
Attachment #3
5
271081001
271081001
Alco Automation
2
EA
EMERSON
13
Fuse Miniature 3.15A
Attachment #3
6
280750251
280750251
Alco Automation
2
EA
EMERSON
14
Fuse, 1/8A, 250V
Attachment #3
7
280750238
280750238
Alco Automation
2
EA
EMERSON
15
Moisture Generator, CAL Moisture, 3050FRU, 50 ppm(nominal)
Attachment #3
10
305010901S
305010901S
Alco Automation
1
EA
EMERSON
16
MS Dryer Assembly 3050-OLV FRU
Attachment #3
11
305400901S
305400901S
Alco Automation
1
EA
EMERSON
17
7 micron Filter
 
 
230536001
 
 
1
EA
EMERSON
19
O-Ring EPR-218
Attachment #3
12
300.4511
300.4511
Alco Automation
6
EA
EMERSON
20
Kit Rebuild for Genie Filter Assy
Attachment #3
13
100.1848
100.1848
Alco Automation
2
EA
EMERSON
21
Fuse FST 1A, 250V S/B 5X20
Attachment #3
14
300.9244
300.9244
Alco Automation
2
EA
EMERSON
22
Fuse for Logic Power Supply (2A 250V)
Attachment #3
15
300.6254
300.6254
Alco Automation
2
EA
EMERSON
23
Fuse for Cooler Power Supply (6.3A 250V)
Attachment #3
16
300.6256
300.6256
Alco Automation
2
EA
EMERSON
24
Assy Peltier Cooler
Attachment #3
17
100.1578
100.1578
Alco Automation
1
EA
EMERSON
25
Thermalcote II (Heat Sink Silicone/Brush,
Peltier Coller Assy, Used for Peltier Coller replacement)
Attachment #3
18
301.1078
301.1078
Alco Automation
1
EA
EMERSON
26
Flow Restrictor 50 SCCM
Attachment #3
19
300.6245
300.6245
Alco Automation
1
EA
EMERSON
27
Flow Restrictor 250 SCCM
Attachment #3
20
300.4512
300.4512
Alco Automation
1
EA
EMERSON
29
330' Lead Acetate Paper
Attachment #3
21
CO0329
CO0329
Alco Automation
10
EA
EMERSON
30
Rear Window for Sample Chamber
Attachment #3
22
MC0406
MC0406
Alco Automation
1
EA
EMERSON
31
*1/32" Rate/Read Aperture Strip* (0-25 ppm and 0-30ppm)
Attachment #3
23
MC0409
MC0409
Alco Automation
2
EA
EMERSON
32
Headline Element 125770C
Attachment #3
24
MC0477
MC0477
Alco Automation
5
EA
EMERSON
33
Gasket for Rear Window
Attachment #3
25
MC0593
MC0593
Alco Automation
1
EA
EMERSON
34
Sensor Block & Detector
Attachment #3
26
SA2466
SA2466
Alco Automation
1
EA
EMERSON
35
Sample Chamber Assembly
Attachment #3
27
SA0452
SA0452
Alco Automation
1
EA
EMERSON
36
Humidifier Tubing Replacement Kit
Attachment #3
28
SA2193
SA2193
Alco Automation
1
EA
EMERSON
38
Analysis cell; AK30 mm; CaF2; Al; spiral pin
Attachment #3
29
42717646
42717646
Rosemount
1
EA
EMERSON
0060104
39
IR-source cpl.; CaF2; Al; polished, Filing R134a
Attachment #3
30
42717153
42717153
Rosemount
1
EA
EMERSON
0060104
40
XSP 09 X2-MID-4AC-5DC;
serial no. of analyzer required for programming
Attachment #3
31
43500709
43500709
Rosemount
1
EA
EMERSON
0060104
41
In-line filter stainless steel; hose connection
Attachment #3
32
ETC00713
ETC00713
Rosemount
1
EA
EMERSON
0060104
42
Chopper Assy; 4/5; X-stream
Attachment #3
33
42717962-V1
42717962-V1
Rosemount
1
EA
EMERSON
0060104
44
Spare Sensor:Immersion depth 36 mm / 1,5"
Attachment #3
34
287782
287782
Bartec
1
EA
EMERSON
45
Calibration for Spare Sensor
Attachment #3
35
239022
239022
Bartec
1
EA
EMERSON
46
6mm OD, T-Filter, 15 micron, SS316
 
 
Swagelok SS-6C-MM-1/3
 
 
1
EA
EMERSON
48
Spare ID Spool (Ins. Spare) – Items 1 & 2
Attachment #3
4
SP900IDBDY
SP900IDBDY
Thermo Fisher Scientific
1
EA
EMERSON
49
Spool Lock Ring (Op. Spare)
Attachment #3
5
HD-B0070
HD-B0070
Thermo Fisher Scientific
1
EA
EMERSON
50
Gas Filter Kit (Op. Spare)
Attachment #3
1,2,3,6,7&8
Gas Filter Kit
Gas Filter Kit
Thermo Fisher Scientific
1
EA
EMERSON
51
Pre-Set Torque Spanner (Ins. Spare)
Attachment #3
10 & 11
H90-0030/A
H90-0030/A
Thermo Fisher Scientific
1
EA
EMERSON
52
Amp Box Seal Ring, Pack of 2 (Op. Spare)
Attachment #3
12
ZR20-0117/B
ZR20-0117/B
Thermo Fisher Scientific
1
EA
EMERSON
53
Amp Box to Stem "O" Ring, Pkt. 10 (Op. Spare)
Attachment #3
12
ZR10-0120/B
ZR10-0120/B
Thermo Fisher Scientific
1
EA
EMERSON
55
PCA Valve Driver 500 GC
Attachment #3
56
2-3-0500-178
2-3-0500-178
Rosemount Analytical
1
EA
EMERSON
0060104
56
Motherboard, Model 500
Attachment #3
57
2-3-0500-200
2-3-0500-200
Rosemount Analytical
1
EA
EMERSON
0060104
57
Pre-Amplifier Board, Model 500
Attachment #3
58
2-3-0500-201
2-3-0500-201
Rosemount Analytical
1
EA
EMERSON
0060104
58
Temperature Controller & Valve Driver Board
Attachment #3
59
2-3-0500-202
2-3-0500-202
Rosemount Analytical
1
EA
EMERSON
0060104
59
Teflon Thermistor Seals (Set Of 10)
Attachment #3
60
2-3-0500-391
2-3-0500-391
Rosemount Analytical
1
EA
EMERSON
0060104
60
Microfuse; 3A 120V Ac (Set Of 5)
Attachment #3
61
2-3-0500-392
2-3-0500-392
Rosemount Analytical
1
EA
EMERSON
0060104
61
PCA CPU 32-bit w/ (4) RS-232 & BOS - Requires 32-bit application file
Attachment #3
62
2-3-2350-232
2-3-2350-232
Rosemount Analytical
1
EA
EMERSON
0060104
62
Kit, Repair 6-port GC Valve with Instns - For Models 500 & 1000 only
Attachment #3
63
2-3-9300-108
2-3-9300-108
Rosemount Analytical
1
EA
EMERSON
0060104
63
Diaphragm, Shut-Off Valve, GC
Attachment #3
64
2-4-4000-179
2-4-4000-179
Rosemount Analytical
1
EA
EMERSON
0060104
64
Valve, Solenoid, 3-Way ASCO, (CSA, Class 1, Group B)
Attachment #3
65
2-4-5000-075
2-4-5000-075
Rosemount Analytical
1
EA
EMERSON
0060104
65
Filter Element 2 micron,Swagelok SS-2F-K4-2
Attachment #3
66
2-4-5000-113
2-4-5000-113
Rosemount Analytical
1
EA
EMERSON
0060104
66
Filter, Inline 1/8"
 
 
2-4-5000-112
 
 
1
EA
EMERSON
0060104
67
Solenoid, 4-Way, FABCO
Attachment #3
67
2-4-5000-218
2-4-5000-218
Rosemount Analytical
1
EA
EMERSON
0060104
68
1/8" NPTF, Membrane Filter, Genie Model 120, SS316
 
 
2-4-5000-939
 
 
1
EA
EMERSON
0060104
69
Membrane Kit, Genie? Model 120 Filter/Bypass/LSO
Attachment #3
68
2-4-5000-938
2-4-5000-938
Rosemount Analytical
1
EA
EMERSON
0060104
70
Regulator, Carrier 60-110 Psig, Masoneilan (Baked)
Attachment #3
69
2-4-9500-084
2-4-9500-084
Rosemount Analytical
1
EA
EMERSON
0060104
71
Power Supply, 20V 0.4A terminal strip, Acopian 20EB40
Attachment #3
70
2-4-9500-230
2-4-9500-230
Rosemount Analytical
1
EA
EMERSON
0060104
72
Kit, 9K Thermistors C/9061 (Not for use with Hydrogen Carrier)
Attachment #3
71
2-6-1611-083
2-6-1611-083
Rosemount Analytical
1
EA
EMERSON
0060104
73
Column Set C6+ BTU/CV 4 minute
Attachment #3
72
2-3-0520-101
2-3-0520-101
Rosemount Analytical
1
EA
EMERSON
0060104
74
Membrane Kit 101 Filter
Attachment #3
73
2-4-5000-394
2-4-5000-394
Rosemount Analytical
1
EA
EMERSON
0060104
75
Columns for GC with 2-7-0573-437 
Spare GC Micro-Packed Column per Sales Order
Attachment #3
74
2-3-0500-375
2-3-0500-375
Rosemount Analytical
1
EA
EMERSON
77
PCA detector preamp
Attachment #3
75
2-3-0710-001
2-3-0710-001
Process Analytical Division
1
EA
EMERSON
0060104
78
PCA solenoid/heater driver
Attachment #3
76
2-3-0710-002
2-3-0710-002
Process Analytical Division
1
EA
EMERSON
0060104
79
PCA base I/O
Attachment #3
77
2-3-0710-003
2-3-0710-003
Process Analytical Division
1
EA
EMERSON
0060104
80
PCA, Backplane, 700XA & 1500XA
Attachment #3
78
2-3-0710-005
2-3-0710-005
Process Analytical Division
1
EA
EMERSON
0060104
81
Kit, Fuse, 700XA & 1500XA
Attachment #3
79
2-3-0710-074
2-3-0710-074
Process Analytical Division
1
EA
EMERSON
0060104
82
Assy, 6-port XA valve
Attachment #3
80
2-3-0710-100
2-3-0710-100
Process Analytical Division
1
EA
EMERSON
0060104
83
O-ring, dome seal, 700XA
Attachment #3
81
2-4-0710-149
2-4-0710-149
Process Analytical Division
1
EA
EMERSON
0060104
84
Solenoid, 4-way
Attachment #3
82
2-4-0710-159
2-4-0710-159
Process Analytical Division
1
EA
EMERSON
0060104
85
Solenoid, 4-way
Attachment #3
83
2-4-0710-224
2-4-0710-224
Process Analytical Division
1
EA
EMERSON
0060104
86
Kit, diaphragm, 6-port XA valve
Attachment #3
84
2-4-0710-248
2-4-0710-248
Process Analytical Division
1
EA
EMERSON
0060104
87
Diaphragm, Shut-Off Valve, GC
Attachment #3
85
2-4-4000-179
2-4-4000-179
Process Analytical Division
1
EA
EMERSON
0060104
88
Pressure switch, carrier
Attachment #3
86
2-4-0710-266
2-4-0710-266
Process Analytical Division
1
EA
EMERSON
0060104
89
Regulator, Carrier 10-100 Out
Attachment #3
87
2-4-5001-977
2-4-5001-977
Process Analytical Division
1
EA
EMERSON
0060104
90
CPU Board, 700XA & 1500XA
Attachment #3
88
7A00055G02
7A00055G02
Process Analytical Division
1
EA
EMERSON
0060104
91
700XA LOI
Attachment #3
89
7A00148G01
7A00148G01
Process Analytical Division
1
EA
EMERSON
0060104
92
TDK Power Supply 24 VDC OUT, 185W 85-265 VAC IN, Model 700, Model 1000A, 700XA & 1500XA only
Attachment #3
90
7C00086-001
7C00086-001
Process Analytical Division
1
EA
EMERSON
0060104
93
Assembly, FPD Interface PCA in Enclosure
Attachment #3
91
2-3-0710-041
2-3-0710-041
Process Analytical Division
1
EA
EMERSON
94
PCA, Wire Terminal, Ultem, TCD/FID/FPD
Attachment #3
92
2-3-0710-018
2-3-0710-018
Process Analytical Division
1
EA
EMERSON
95
725977-1 Column 1: 1' X 1/16 20% OV-17 ON CHROMOSORB W HP 80/100
Attachment #3
93
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
96
725977-1 Column 2: 9' X 1/16 20% OV-17 ON CHROMOSORB W HP 80/100
Attachment #3
94
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
97
725977-1 Column 3A: 9' X 1/16 20% OV-17 ON CHROMOSORB W HP 80/100
Attachment #3
95
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
98
725977-1 Column 3B: 9' X 1/16 20% OV-17 ON CHROMOSORB W HP 80/100
Attachment #3
96
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
99
725977-2 Column 1: 18"x1/16 TYPE NC8 ON RESCIL 80/100
Attachment #3
97
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
100
725977-2 Column 2: 3'X1/16 TYPE HAYSEP R ACID WASHED 80/100
Attachment #3
98
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
101
725977-2 Column 3: 6'x1/16 TYPE HAYSEP R ACID WASHED 80/100
Attachment #3
99
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
102
725977-3 Column 1: 18"x1/16 TYPE NC8 ON RESCIL 80/100
Attachment #3
100
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
103
725977-3 Column 2: 3'X1/16 TYPE HAYSEP R ACID WASHED 80/100
Attachment #3
101
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
104
725977-3 Column 3: 6'x1/16 TYPE HAYSEP R ACID WASHED 80/100
Attachment #3
102
2-3-0500-375
2-3-0500-375
Process Analytical Division
1
EA
EMERSON
106
Relief Valve Kit, Swagelok
Attachment #3
103
SWAGELOK0001
SWAGELOK0001
Wilmax Control
1
EA
EMERSON
107
Filter Regulator, Bifold Fluidpower
Attachment #3
104
BIFOLD0030
BIFOLD0030
Wilmax Control
1
EA
EMERSON
108
4 WAY SOLENOID VALVE24 VDC Ex d, 316SS; ATEX, Versa
Attachment #3
105
CSG-4322-316-XDBS1-D024
CSG-4322-316-XDBS1-D024
Wilmax Control
1
EA
EMERSON
109
3 WAY SOLENOID VALVE24 VDC Ex d, 316SS; ATEX, Versa
Attachment #3
106
CSG-3321-316-XDBS1-DO24
CSG-3321-316-XDBS1-DO24
Wilmax Control
1
EA
EMERSON
110
REPAIR KIT 810 CELLSAMPLER, DOEDIJNS
Attachment #3
107
DOESAMPLE0007
DOESAMPLE0007
Wilmax Control
1
EA
EMERSON
111
Versa 4 WAY SOLENOID VALVE 24 VDC Ex d, 316SS; ATEX
Attachment #3
108
CSG-4322-316-LB-XN-DO24
CSG-4322-316-LB-XN-DO24
Wilmax Control
1
EA
EMERSON
112
Versa 3 WAY SOLENOID VALVE 24 VDC Ex d, 316SS; ATEX
Attachment #3
109
CSG-3211-316-LB-XN-DO24
CSG-3211-316-LB-XN-DO24
Wilmax Control
1
EA
EMERSON
113
4 WAY SOLENOID VALVE 24 VDC Ex d, 316SS;ATEX; NACE MR 0175 Certificate, Versa
Attachment #3
110
VERSA0080
VERSA0080
Wilmax Control
1
EA
EMERSON
114
3 WAY SOLENOID VALVE 24 VDC Ex d, 316SS;ATEX; NACE MR 0175 Certificate, Versa
Attachment #3
111
VERSA0077
VERSA0077
Wilmax Control
1
EA
EMERSON
115
1000cc PORTABLE CONSTANT PRESSURERECEIVERS; SS316; Viton A seals PG 2000Psi Press.Rating 2 off SS Gauges Include as metric 0-100Barg; Std. Burst Relief Disc; 80% fill Switch; DOTApproval; 1/4"
Attachment #3
112
PGI0001
PGI0001
Wilmax Control
1
EA
EMERSON
116
THERMOSTAT CONTROLLED HEATER ATEXAPPROVED Certificate, INTERTEC
Attachment #3
113
INT0004
INT0004
Wilmax Control
1
EA
EMERSON
117
Standard repair kit for gas filter regulator, TESCOM
Attachment #3
114
TESCOM0034
TESCOM0034
Wilmax Control
1
EA
EMERSON
118
500cc PORTABLE CONSTANT PRESSURERECEIVERS; SS316; Viton A seals PG 2000Psi Press.Rating 2 off SS Gauges Include as metric 0-100Barg; Std. Burst Relief Disc; 80% fill Switch; DOTApproval; 1/4"N
Attachment #3
115
PGI0002
PGI0002
Wilmax Control
1
EA
EMERSON
120
Replacement - Pressure Transmitter 0 - 100 bar
Attachment #3