Untitled - KGC Resources Sdn Bhd
KGC RESOURCES SDN BHD
MALAYSIA
ACKNOWLEDGMENT
MESSAGE FROM OUR MANAGEMENT
Welcome to KGC RESOURCES SDN BHD
KGC RESOURCES SDN BHD founded in 1998, is a distribution company specializes in scientific and laboratory
equipments from Advance Material Science, Analytical Research, Oil & Gas Instrumentation, Biotechnology & Life
Science, Nanomaterial Research, and General Laboratory Equipment.
For over 10 years, KGC RESOURCES SDN BHD has been a trusted partner to our customers and principal
manufacturers in the scientific industry.
Due to the rapid development in science and technology, KGC RESOURCES SDN BHD is constantly sourcing
for the latest technology and equipment to keep our customers abreast of the developments in the scientific and
research field.
With the combinations of our market leading brands of our products with unparallel level of sales, service and
technical support, we aim to become a total solution provider to the scientific community in Malaysia, Singapore,
and Indonesia.
We thank you for your support and we strive to serve you better.
Please feel free to browse our e-product catalog and e-promotion catalog on www.kgcscientific.com and/
or www.kgcresources.com.
INTRODUCTION
CUSTOMIZED DESIGN
KGC RESOURCES SDN BHD was formed to deliver innovative laboratory
equipment designs to science and research industry. We have combined
experienced and talented engineers to understanding end users’ needs from
developing the designs, fine tuning the mechanical works until the fabrication
parts. Our engineers are young but talented and we pride ourselves in our tag
line: STRENGTH THROUGH INNOVATION.
We have been involved in constructing Walk-In Laboratory Room, Plug Flow
Reaction Tube, Membrane Filtration System, Corrosion Control Test, Heat Transfer
System, Photo Bioreactor System, Raceway Waterpond, Gas Mixing System and
many others in various fields that are related with research purpose. Any inquiry
please feel free to contact us.
Walk-In Laboratory Room
Plug Flow Reaction Tube
Photo
Bioreactor
Gas Mixing System
Membrane Filtration System
Corrosion Control Test Apparatus
2
KGC RESOURCES
KGC RESOURCES SDN BHD
VACUUM CHAMBER FURNACE
CRUCIBLE FURNACE
ATMOSPHERE BOX FURNACE
MUFFLE FURNACE
TUBE FURNACE
CLOSE SPACE SUBLIMATION FURNACE
HYDROTHERMAL REACTOR
VACUUM OVEN
HOT PLATE
CONVECTION OVEN
LABORATORY MILL MIXER
COLD ISOSTATIC PRESS
HYDRAULIC PRESS
CUTTING & DICING SAW
DIAMOND WIRE SAW
POLISHING MACHINE
DIP COATER
THERMAL EVAPORATION COATER
DIP COATER WITH CHAMBER
SPIN COATER
SURFACE TREATMENT
PLASMA SPUTTERING COATER
SEMICONSOFT
28
FRANCE
PARTICLE SIZE ANALYZER
NANO PARTICLE ANALYZER
TEM MICROSCOPE
HYDROGEN ABSORPTION/DESORPTION SYSTEM
ELECTROSPINZ
NEW ZEALAND
ELECTROSPINNING MACHINE
SPI SUPPLIES
USA
TORREY HILLS
USA
YES SOLUTION
KOREA
PLASMA CLEANER
OSMIUM PLASMA COATER
PLASMA ETCHER
THREE ROLL MILLS
BELT FURNACE
WET MILLING MACHINE
DRY MILLING MACHINE
PASTE MILLING MACHINE
NANO DISPERSION HOMOGENIZER
SEC
USA
CHINA
SURFACE AREA ANALYZER
TOC ANALYZER
PRODUCTS CATALOG
32
33
33
34
35
36
37
38
40
41
43
43
43
43
44
44
44
44
45
45
45
45
46
48
49
HYDROGEN GENERATOR
GOLD APP INSTRUMENTS
TOC SYSTEMS
31
USA
TUBE FURNACE
MUFFLE FURNACE
INDUCTION MELTING FURNACE
MICROWAVE MUFFLE FURNACE
HIGH PRESSURE TUBE FURNACE
MAGNESIUM ALLOY FURNACE
VACUUM MUFFLE FURNACE
ACRYLIC GLOVE BOX
VACUUM PUMP
VACUUM OVEN
PLANETARY BALL MILL
HYDRAULIC PRESS
STANDARD GLOVE BOX SYSTEM
GLOVE BOX OPTIONAL UNIT
CUSTOMIZED GLOVE BOS SYSTEM
REB RESEARCH
29
30
31
42
ANALYTICAL RESEARCH
KOREA
MINI SEM
BERKELEY SCIENTIFIC
25
26
ADVANCED MATERIALS CORPORATION (AMC) USA
6
6
6
7
10
14
14
15
15
16
17
18
18
19
19
20
21
21
22
23
23
24
USA
PLASMA CLEANER
CORDOUAN TECH
CHINA
LITHIUM BATTERY PRODUCTION LINE
HARRICK PLASMA
USA
THIN FILM MEASUREMENT SYSTEM
GELON
6
USA
TABLE OF CONTENTS
ADVANCED MATERIAL SCIENCE
MTI
MALAYSIA
USA
50
50
51
52
www.kgcresources.com | www.kgcscientific.com
3
KGC RESOURCES SDN BHD
MALAYSIA
54
OIL & GAS INSTRUMENTATION
IMR
USA
GASTECH
AUSTRALIA
SRI
USA
54
55
55
56
FLUE GAS ANALYZER
AMBIENT GAS DETECTOR
HANDHELD GAS ANALYZER
CONTINUOUS FLUE GAS MONITORING SYSTEM
57
58
59
SINGLE GAS DETECTOR
MULTI GAS DETECTOR
FIXED GAS DETECTOR
60
GAS CHROMATOGRAPH
62
BIOTECHNOLOGY & LIFE SCIENCE
BE MARUBISHI
JAPAN
QUANTEK INSTRUMENTS
USA
IZON
NEW ZEALAND
MICRO FERMENTOR
DESKTOP FERMENTOR
INTELLIGENT BIOREACTOR
MULTI CHANNEL CONTROLLER
R&D SCALE FERMENTOR
PILOT PLANT FERMENTOR
HEADSPACE / PACKAGE TESTER
GAS FLOW / PROCESS ANALYZER
66
67
NANO PARTICLE ANALYZER
HEBLAB
62
62
63
64
65
65
68
CHINA
JACKETED GLASS REACTOR
69
70
TABLE OF CONTENTS
INSTRUMENTATION
SVSLABS
USA
VENCON TECHNOLOGIES
USA
NUVANT SYSTEMS
USA
BERKELEY SCIENTIFIC USA
DAKOTA INSTRUMENTS
USA
PHYSIC EXPERIMENTAL SETUP
ELECTRONIC EXPERIMENTAL SETUP
LABORATORY INSTRUMENTS
70
70
71
BATTERY ANALYZER
EXTENDED BATTERY ANALYZER
72
73
POTENTIOSTAT/GALVANOSTAT
FUEL CELL TEST STATION
CORROSION CELLS
VOLTAMMETRY ACCESSORIES
74
77
77
77
78
78
78
79
79
BATTERY ANALYZER
DC ELECTRONIC LOAD
MASS FLOW CONTROLLER
INTERNAL RESISTANCE TESTER
TESTING & FORMATION SYSTEM
ROTAMETER
80
81
LABORATORY EQUIPMENT
SYRINGE PUMP/STARTER KIT
SYRINGE HEATER/PUMP SOFTWARE
USA
USA
NEW ERA EBERBACH
LAB SHAKER/HEAVY DUTY BLENDER/ELECTRO-ANALYZER
PM TAMSON
86
USA
REACTION CONTROLLER/REACTION BLOCK
LAB REACTOR/NITROGEN GAS HEATER
HYSC
88
KOREA
CIRCULATING WATER BATH/WATER BATH/
CIRCULATOR OIL BATH/SHAKING WATER BATH
89
HAHN SHIN SCIENTIFIC
KOREA
BERKELEY SCIENTIFIC
USA
MTI
USA
ROTARY EVAPORATOR/CHILLER/COLD TRAP/ASPIRATOR
90
HUMIDITY CABINET
91
ALUMINA CRUCIBLE/GRAPHITE CRUCIBLE
QUARTZ BOAT/MORTAR & PESTLE
NANOMATERIAL & SEMICONDUCTOR: LJUHV
4
84
NETHERLANDS
VISCOSITY BATH/HIGH TEMPERATURE BATH
LOW TEMPERATURE BATH
JKEM SCIENTIFIC
81
KGC RESOURCES
92
TAIWAN
94
MTI
USA
MTI CORPORATION
MTI CORPORATION, founded in 1994 by a group of material researchers from MIT and UC Berkeley, has now become the leading
manufacturer of oxide crystals and substrates in the world, thanks to venture capital from Silicon Valley. MTI continues to develop new
crystal substrates and maintain high quality of its single crystal substrates. MTI is equipped with the latest state of the art instruments, which
allow achievement of the highest standard. We strive continuously to keep pace with customers’ increasing demands on super-smoothness,
super-flatness, and super-cleanliness. In 2000, by popular demand, MTI started to manufacture precision bench-top machines for material
processing, analysis, and crystal wafer containers.
MTI currently operates three production factories in China. This allows for the possibility of providing high quality and low cost
precision machines for material research and R&D Labs, including: low speed cutting saw, wire diamond saw, auto polishing machine, high
temperature oven, tube furnace, X-Ray crystal orientation machine, and Mini XRD, as well as complete set of equipments for research of
rechargeable battery materials. Simple to operate, low cost, and commitment to our customers is our priority. MTI strives to become the
world’s leader in bench-top machines for material lab.
MTI Corporation located nearby Richmond Inner Harbor
For more information on MTI, please refer to MTI Product Catalog or
you may visit www.mtimalaysia.com or www.mtiindonesia.co.id
ADVANCED MATERIAL SCIENCE
Leading manufacturer from Advanced Materials to Precision Machines
Services Material Research Society since 1994
BATTERY PRODUCTION LINE
MTI ENGINEERING TEAM has more than 15 years of experiences in manufacturing various type of rechargeable battery, and
has been helping many research institutes and R&D Company into consulting battery research lab setup at the worldwide.
Currently, MTI is the world leading supplier in providing desktop machines and tools for battery development; from battery
powder preparation to electrode film coating. If you need anything for battery research, please let us know. We will help you to
find a solution.
We can provide technology transfer and full production line for battery cells with production yield from 1000 Ah/day to
100,000 Ah/day. For additional information about research line process for coin cell, pouch cell, and cylinder cell, please refer to
APPENDICES. If you are interested into battery production line, please send an email to us with the following information:
1. The expected daily production capability (Ah/day)
2. Battery size and type
u
PRODUCTS CATALOG
u
u
u
www.kgcresources.com | www.kgcscientific.com
5
MTI
USA
VACUUM CHAMBER FURNACE
Model
VBF-1200X-H8-UL
Quartz Tube Size
8” O.D x 7.5” I.D.x 13.4“ L
Volume
7.6 L
Working Temperature
Maximum 1100°C for 30 minutes and 1000°C continuously
Features
• PID automatic control and auto-tune function
• Stainless steel vacuum flange with one needle valve as gas inlet
• One port for vacuum pump connection
• Digital vacuum gauge provided
UL Recognition
All electric components are UL recognized
ADVANCED MATERIAL SCIENCE
OTF-1200X-DT
VBF-1200X-E8
• Max working temp: 1250°C
• Max heating rate: 120°C/min
• Max vacuum pressure: 20 Torr
• Max dwell time with vacuum: 60
min
• Max dwell time without vacuum:
540 min
• Inside camber size: 100mm dia. X
140mm H
• Auto-lift and auto down sample
tray
• Idle, dry, preheat, Ramp up, dwell,
Cooling down, 6 segments are
programmable
• Water cooled vacuum flange
• Quartz chamber for clean
treatment
• Automatic bottom loading for
easy operation
• Max continuous working
temperature: 1100ºC
• DC motor with remote
controller drives the opening
and closing operation of the
flange
• PID temperature controller for
precise control of heating rate,
cooling rate and dwell time
CRUCIBLE FURNACE
VBF-1200X
VTF-1600X
• Designed for sintering ceramic
parts and component
• The heating element is
embedded in the insulation for
maximum heat transfer to the
chamber
• 9 liters volume capacity double
layer steel structure
• Can be used up to 1250ºC
• Designed for melting metal
and crystal growth via TSSG
• Consists of high quality
alumina fiber brick and MoSi2
heating elements
• Can be used up to 1600ºC
• Double shell steel casing with
cooling fan to keep low surface
temperature
ATMOSPHERE BOX FURNACE
KSL-1600XA6
KSL-1700XA6
KSL-1700X-GS
KSL-1800X-GS
KSL-1700X-H2
Working temperature Working temperature Working temperature Working temperature Working temperature up to 1600ºC
up to 1500ºC
up to 1600ºC
up to 1600ºC
up to 1700ºC
• 5ºC/min maximum heating rate
• 5ºC/min heating rate
• 5ºC/min heating rate
• Double skinned steel contruction with air • Vacuum-sealed steel case with water • Built in H2 burning control system,
pressure gauge, vacuum valves and two
cooling convection
cooling jacket and vacuum & gas flow
flowmeters
• Chamber size of 20”x 20” x 24”
control system
• 12 liter volume capacity
• 157 liter volume capacity
• 12 liter volume capacity
6
KGC RESOURCES
MTI
USA
Muffle furnace (400°C-1800°C) steps in as the necessary part of laboratory that requires extreme heat environment. MTI is providing the
muffle furnace at an affordable cost. The sizes of the muffle furnace are various from the smaller furnaces which are conveniently placed on
a workbench, to the larger units that has a coveted capacity and competent for all duty.
General Features:
• PID automatic control and auto tune function temperature controller
• High purity alumina fiber insulation
• Double shell steel case
KSL-1100X-S
KSL-1400X
Model
KSL-1100X-S
KSL-1500X-S
Chamber Dimension
Volume
LxWxH
Heating
Rate
Working
Temperature
KSL-1200X-M
Features
4” x 4” x 4“
1L
Max: 30°C /min
Max: 1200°C (< 1 hour) • Energy saving (700 W max power
Cont: 1100°C
usage)
• Fe-Cr-Al Alloy doped by Mo
KSL-1100X-S-UL 4” x 4” x 4“
(UL Certified)
1L
Max: 30°C /min
Max: 1200°C (< 1 hour) • Energy saving (700 W max power
Cont: 1100°C
usage)
• Fe-Cr-Al Alloy doped by Mo
KSL-1100X-AC-80 16” x 16” x 16”
64 L
Max: 20°C/min
Max: 1200°C (< 4 hour) • Water cooling front door and air
Cont: 1100 °C
cooling shell
• Can stand at positive pressure
up to 0.2MPa and vacuum up
to - 0.1MP
• Built in pressure gauge, vacuum
valves, KF25 vacuum port, and
two gas flowmeters
• Water chiller is included
KSL-1200X
12” x 8” x 5”
7.2 L
Max: 50°C/min
Max: 1200°C (< 1 hour) • Resistance wire coil on 3 sides of
Cont: 1100°C
interior chamber
• Vent port installed on top
• 0.5” dia observation window
• Gas fill tube is included
KSL-1200X-J
6” x 6” x 7”
4.2 L
Max: 30°C/min
Max: 1200°C (< 4 hour) • Resistance wire coil on 3 sides of
Cont: 1100 °C
interior chamber
KSL-1200X-J-UL 6” x 6” x 7”
(UL Certified)
4.2 L
Max: 30°C/min
Max: 1200°C (< 4 hour) • Resistance wire coil on 3 sides of
Cont: 1100 °C
interior chamber
KSL-1200X-M
12” x 12” x 12”
27 L
Max: 10°C/min
Max: 1200°C (< 3 hour) • Resistance wire coil on 3 sides of
Cont: 1100°C
interior chamber
• Vent port installed on top
KSL-1200X-L
16” x 16” x 16”
64 L
Max: 20°C/min
Max: 1100°C (< 1 hour) • Resistance wire coil on 3 sides of
Cont: 1000°C
interior chamber
• Vent port installed on top
KSL-1200X-L5-UL 16” x 16” x 16”
(UL Certified)
64 L
Max: 20°C/min
Max: 1200°C (< 1 hour) • Resistance wire coil on 5 sides of
Cont: 1100°C
interior chamber
• Vent port installed on top
KSL-1400X
19 L
Max: 10°C/min
Max: 1400°C (< 3 hour) • Double door type with sliding
Cont: 1300°C
rails on each door
• Heating element: Silicon Carbide
KSL-1500X-S-UL 4.7” x 4.7” x 4.7”
(UL Certified)
1.7 L
Max: 20°C/min
Cont: 10°C/min
Max: 1500°C (< 1 hour)
Cont: 1400°C
• Gas inlet and venting port are
installed
• Heating element: Silicon Carbide
KSL-1700X-S
1.7 L
Max: 20°C/min
Cont: 10°C/min
Max: 1700°C (< 3 hour)
Cont: 1600°C
• Heating element: Molybdenum
Disilicide
PRODUCTS CATALOG
10” x 10” x 12”
4.7” x 4.7” x 4.7”
www.kgcresources.com | www.kgcscientific.com
ADVANCE MATERIAL SCIENCE
MUFFLE FURNACE
7
MTI
USA
MUFFLE FURNACE
KSL-1200X
KSL-1200X-L
KSL-1700X-A4-DC
Model
ADVANCED MATERIAL SCIENCE
KSL-1700X-A1P
8
Chamber Dimension
Volume
LxWxH
Heating
Rate
Working
Temperature
Features
6” x 6” x 6”
3.6 L
Max: 20°C/min
Cont: 10°C/min
Max: 1700°C (< 3 hour)
Cont: 1600°C
• Heating element: Molybdenum
Disilicide
KSL-1700X-A1P-UL 6” x 6” x 6”
(UL Certified)
3.6 L
Max: 20°C/min
Cont: 10°C/min
Max: 1700°C (< 3 hour)
Cont: 1600°C
• Heating element: Molybdenum
Disilicide
KSL-1700X-A2
8.4 L
Max: 20°C/min
Cont: 10°C/min
Max: 1700°C (< 3 hour)
Cont: 1600°C
• Heating element: Molybdenum
Disilicide
KSL-1700X-A3
10” x 10” x 12”
(UL Certified)
19 L
Max: 10°C/min
Cont: 5°C/min
Max: 1700°C (< 3 hour)
Cont: 1650°C
• Heating element: Molybdenum
Disilicide
KSL-1700X-A4-DC
12” x 12” x 12”
36 L
Max: 5°C/min
Max: 1700°C (< 3 hour)
Cont: 1600°C
• Two sets of temperature
controller for safety features
• Rotameter and gas ports are
installed
• Heating element: Molybdenum
Disilicide
KSL-1700X-KA-S
4.7” x 4.7” x 4.7”
1.7 L
Max: 20°C/min
Cont: 10°C/min
Max: 1750 °C (< 2 hour) • Gas inlet and venting port are
Cont: 1720 °C
installed for using at oxygen or
inert gas atmospheres
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1700X-KA
6.3” x 5.9” x 5.9”
3.6 L
Max: 20°C/min
Cont: 10°C/min
Max: 1750°C (< 3 hour)
Cont: 1700°C
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1700X-KA-UL 6.3” x 5.9” x 5.9”
(UL Certified)
3.6 L
Max: 20°C/min
Cont: 10°C/min
Max: 1750°C (< 3 hour)
Cont: 1700°C
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1700X-KA2
8” x 8” x 8”
8.4 L
Cont: 5°C/min
Cont: 1750°C
• ZrO2 (YSZ) chamber coating
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1700X-KA3
10” x 10” x 12”
19 L
Max: 10°C/min
Cont: 5°C/min
Max: 1750°C (< 3 hour)
Cont: 1720°C
• ZrO2 (YSZ) chamber coating
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1800X-KA-S
4.7” x 4.7” x 4.7”
1.7 L
Max: 20°C/min
Cont: 10°C/min
Max: 1800°C (< 2 hour)
Cont: 1750°C
• YSZ liner that can stand up to
2000°C
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1800X-KA-S-UL 4.7” x 4.7” x 4.7”
(UL Certified)
1.7 L
Max: 20°C/min
Cont: 10°C/min
Max: 1800°C (< 2 hour)
Cont: 1750°C
• YSZ liner that can stand up to
2000°C
• Heating element: Kanthal type
Molybdenum Disilicide
KSL-1800X-KA-UL 6.3” x 5.9” x 5.9”
(UL Certified)
3.6 L
Max: 10°C/min
Cont: 5°C/min
Max: 1800°C (< 1 hour)
Cont: 1750°C
• YSZ liner that can stand up to
2000°C
• Heating element: Kanthal type
Molybdenum Disilicide
KGC RESOURCES
8” x 8” x 8“
MTI
USA
There are many types of tube furnaces which are Single Zone Tube Furnace,
Multi-zone Tube Furnace, Rotary Tube Furnace, CVD/PECVD/Hydrogen Tube
Furnace, Rapid Thermal Processing/Graphene Tube Furnace and Vertical
Tube Furnace to meet various applications for researchers and engineers OTF-1200X-R-60HG
worldwide.
OTF-1200X-5L-R-III-UL
GSL-1600X-R60-II
Model
Working
Tube Dia.
Tube Rotating
Speed
Working
Temperature
Features
ROTARY TUBE FURNACE
OTF-1200X-4-R-UL 100 mm O.D 0 - 7 rpm
Max: 1200°C (< 2 hour)
Cont: 1100°C
• Heating zone length: 400 mm (Single zone)
• Fused quartz tube with four mixing blade is
installed
• The furnace can be tilted up to 35° by electric lift
• One pair of 60mm SS sealing flange with needle
valves and rotable gas connector is included
OTF-1200X-4-RII-UL
100 mm O.D 0 - 10 rpm
Max: 1200°C (< 2 hour)
Cont: 1100°C
• Heating zone length: 800 mm (Two zones)
• Fused quartz tube with four mixing blade is
installed
• The furnace can be tilted up to 35° by electric lift
• One pair of 60mm SS sealing flange with needle
valves and rotable gas connector is included
OTF-1200X-5L-RIII-UL
127 mm O.D 0 - 7 rpm
Cont: 1100°C
• Heating zone length: 600 mm (Three zones)
• Fused quartz tube with four mixing blade is
installed
• The furnace can be tilted up to 30° electronically
• Magnetofluid for sealing the tube during rotation
• One pair of 60mm SS sealing flange with needle
valves and rotable gas connector is included
OTF-1200X-R-60HG 100 mm O.D 0 - 7 rpm
Cont: 1100°C
• Heating zone length: 800 mm (Two zones)
• Fused quartz tube with four mixing blade, vacuum
pump,hydrogen generator, and hydrogen detector
system with solenoid valve are installed
• The furnace can be tilted up to 30° electronically
• Magnetofluid for sealing the tube during rotation
• One pair of 60mm SS sealing flange with needle
valves and rotable gas connector is included
• Gas ports are installed
GSL-1500X-OTF-R60 60 mm &
0 - 7 rpm
100 mm O.D
Max: 1500°C (< 1 hour)
Cont: 1400°C
• Heating zone length: 300 mm (One zone)
• Two processing tubes are included which are one
alumina work tube with central block zone & one
quartz tube with larger central container and 60
mm SS vacuum sealing flanges are included
• The furnace can be tilted up to 35° by electric lift
• Gas ports are installed
GSL-1600X-R60-II
Max: 1600 °C • Heating zone length: 800 mm (Two zones)
• Alumina tube & one pair of 60mm SS vacuum
sealing flange with needle valves are included
• Gas ports are installed
• This furnace can not be tilted
PRODUCTS CATALOG
60 mm O.D
0 - 7 rpm
www.kgcresources.com | www.kgcscientific.com
ADVANCED MATERIAL SCIENCE
TUBE FURNACE
9
MTI
USA
TUBE FURNACE
OTF-1200X-80-II-4CV-PE-SL
OTF-1200X-50-II-PE-MSL
OTF-1200X-50S-PE-SL
OTF-1200X-4CLV-PE-UL
Model
Working
Tube Dia.
Plasma RF Power
Supply
Working
Temperature
Features
ADVANCED MATERIAL SCIENCE
PECVD TUBE FURNACE
10
OTF-1200X-50SPE-SL
2” O.D
• 5-300 W output
power
• 13.56 MHz RF
frequency
• 200 W max
reflection power
Max: 1200°C • A 300 W RF plasma generator, one pair SS vacuum
(< 1 hour)
sealing flanges with a KF25 port, two KF25 quick
Cont: 1100°C
clamp, KF25 bellow hose, flange support, sliding rails,
needle valves, digital pirani gauge, and vacuum pump
are included
OTF-1200X-4CLVPE-UL
2” or
3.14” or
4” O.D
• 5-500 W output
power
• 13.56 MHz RF
frequency
• 200 W max
reflection power
• 440 mm length single heating zone and 150 mm
Max: 1200°C
(< 1 hour)
length constant temperate zone
Cont: 1100°C
• A 500 W RF plasma generator, one pair SS vacuum
sealing flanges with a KF25 port, two KF25 quick
clamp, KF25 bellow hose, flange support, needle
valves, four precision mass flow meters, mixing tank,
digital pirani gauge, and vacuum pump are included
OTF-1200X-80-II4CV-PE-SL
2” or
3.14” or
4” O.D
• 5-500 W output
power
• 13.56 MHz RF
frequency
• 200 W max
reflection power
Cont: 1100°C
• Two programmable precision digital temperature
controllers with 400 mm total length of two heating
zones
• A 500 W RF plasma generator, one pair SS vacuum
sealing flanges with a KF25 port, two KF25 quick
clamp, KF25 bellow hose, flange support, sliding
rails, needle valves, four precision mass flow meters,
mixing tank, digital pirani gauge, and Pfeiffer vacuum
pump are included
OTF-1500X-80-III4CV-PE
80 mm
O.D
• 5-500 W output
power
• 13.56 MHz RF
frequency
• 200 W max
reflection power
Max: 1500°C Cont: 1400°C
• Three programmable precision digital temperature
controllers with 600 mm total length of three heating
zones
• A 500 W RF plasma generator, one pair SS vacuum
sealing flanges with a KF25 port, two KF25 quick
clamp, KF25 bellow hose, flange support, sliding
rails, needle valves, four precision mass flow meters,
mixing tank, digital pirani gauge, and Pfeiffer vacuum
pump are included
OTF-1200X-50-IIPE-MSL
2” O.D
• 5-500 W output
power
• 13.56 MHz RF
frequency
• 200 W max
reflection power
Cont: 1100°C
• Two programmable precision digital temperature
controllers with 400 mm total length of two heating
zones
• A 500 W RF plasma generator, one pair SS vacuum
sealing flanges with a KF25 port, two KF25 quick
clamp, KF25 bellow hose, flange support, sliding rails,
needle valves, pre-heater, digital pirani gauge, and
Pfeiffer vacuum pump are included
KGC RESOURCES
MTI
USA
EQ-RTP-1000-LV3C
GSL-1500X-RTP50
OTF-1200X-50-SL-UL
Model
Working
Tube Dia.
Max Heating
Rate
Working
Temperature
Features
RAPID THERMAL PROCESSING TUBE FURNACE
OTF-1200X-4-RTP-UL 4” I.D
50ºC/sec
Max: 1100°C • Heating zone: 12” with 4” constant temperature zone
(< 10 min) • Max cooling: 60°C/min; Lowest cooling: 10°C/min
Max: 800°C
• Quartz tube, sample holder, vacuum flanges, flow meter, and
(< 120 min)
vacuum gauge are included
Cont: 600°C
EQ-OTF-1200X-4-RTP-HV 4” I.D
50ºC/sec
Max: 1100°C • Heating zone: 12” with 4” constant temperature zone
(< 10 min) • Max cooling: 60°C/min; Lowest cooling: 10°C/min
Max: 800°C
• Quartz tube, sample holder, vacuum flanges, flow meter,
(< 120 min)
vacuum gauge, and high vacuum station are included
Cont: 600°C
EQ-RTP-1000-LV3C
4” I.D
50ºC/sec
Max: 1100°C • Heating zone: 12” with 4” constant temperature zone
(< 10 min) • Max cooling: 60°C/min; Lowest cooling: 10°C/min
Max: 800°C
• Quartz tube, sample holder, vacuum flanges, flow meter,
(< 120 min)
vacuum gauge, three channel gas mixer, and vacuum pump
Cont: 600°C
are included
GSL-1500X-RTP50
2” O.D
Max: 1500°C 10ºC/sec
(for Mullite) Cont: 1400°C
30ºC/sec
(for Quartz)
OTF-1200X-4-RTP-SL
4” I.D
50ºC/sec
Max: 1100°C • Heating zone: 12” with 4” constant temperature zone
(< 10 min) • Max cooling: 60°C/min; Lowest cooling: 10°C/min
Max: 800°C
• Quartz tube, sample holder, vacuum flanges, flow meter, vacuum
(< 120 min)
gauge, three channel gas mixer, sliding rail DC motor controlled
Cont: 600°C
and vacuum pump are included
OTF-1200X-80SL
80 mm
O.D
15ºC/sec
Max: 1200°C • Heating zone: 440 mm (single zone)
(< 1 hour) • Slidable rails, SS vacuum flanges, Omega temperature
Cont: 1100°C
calibrator and digital vacuum gauge are included
GSL-1500X-OTF-50SL
2” O.D
15ºC/sec
(Mullite)
Max: 1500°C Cont: 1400°C
• Heating zone: 300 mm (single zone)
• Slidable rails, SS vacuum flanges, and digital vacuum gauge
are included
OTF-1200X-50-SL-UL
2” O.D
15ºC/sec
Max: 1200°C Cont: 1100°C
• Heating zone: 200 mm (single zone)
• Slidable rails with mechanism, SS vacuum flanges, dual air
cooling fans, and dial vacuum gauge are included
OTF-1200X-4-II-C4OVSL
100 mm
& 80 mm
O.D
15ºC/sec
Max: 1200°C Cont: 1100°C
• Heating zone: 400 mm (two zones)
• Slidable rails, dual tube design, SS vacuum flanges, four mass
flow controller, digital vacuum gauge, and Pfeiffer’s oilless
vacuum pump are included
OTF-1200X-4-C4LVS
2” O.D
3ºC/sec
Max: 1100°C Cont: 1000°C
• Heating zone: 440 mm (two zones)
• Slidable rails, dual tube design, SS vacuum flanges, four mass
flow controller, digital vacuum gauge, and vacuum pump are
included
PRODUCTS CATALOG
ADVANCED MATERIAL SCIENCE
OTF-1200X-4-RTP-UL
• One sliding flange is installed on right side furnace
• Digital vacuum gauge and one SS vacuum sealing flanges are
included
www.kgcresources.com | www.kgcscientific.com
11
MTI
USA
TUBE FURNACE
GSL-1100X-50
OTF-1200X-60HV
OTF-1200X-S
GSL-1100X-50-LVT
Model
Working
Tube Dia.
Heating Rate
OTF-1200X-S50-2F
Working
Temperature
OTF-1200X-5-III-SF
Features
ADVANCED MATERIAL SCIENCE
HORIZONTAL TUBE FURNACE
GSL-1100X-50
2” O.D
Max: 20°C/min
Max: 1100°C (< 1 hour)
Cont: 1000°C
Small quartz tube furnace with stainless steel vacuum flanges
with valve, dial vacuum gauge and quartz tube installed
where the chamber can be set up in vertical, horizontal, or
at an angle
GSL-1100X-NT
1” O.D.
or
2” O.D.
Max: 20°C/min
Max: 1100°C (< 1 hour)
Cont: 1000°C
Compact tube furnace designed for firing small samples
with built in 30 segments temperature controller where the
chamber can be set horizontally or at an angle
GSL-1100X-50-LVT
2” O.D.
Max: 20°C/min
Max: 1100°C (< 1 hour)
Cont: 1000°C
The right side of the furnace system is composed of a KF25
gas outlet with digital vacuum gauge connected to a 226l/m
mechanical pump and 1/4” barbed gas inlet on the left to
insert flowing gas or vacuum
OTF-1200X-S50LVT
1” O.D.
or
2” O.D.
Max: 10°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
Compact split tube furnace with insertable temperature
calibrator and complete vacuum system and 1/4” barbed
gas inlet on the left to insert flowing gas or vacuum
OTF-1200X-S50-2F 2” O.D.
Max: 10°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
Mini CVD tube furnace with 2 channel gas mixer, vacuum
pump and anti-corrosive vacuum gauge which enable
vacuum measurements with aggressive gas
OTF-1200X-S
1” O.D
or
2” O.D
Max: 20°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
Compact and energy saving split tube furnace with a pair of
stainless steel vacuum sealing flanges and 1/4” barb fitting
for rubber hose connection for vacuum or flowing gas in
heating sample
EQ-GSL-1100X8.5-S-UL
8.5” O.D
Max: 20°C/min
Max: 1100°C
Cont: 1050°C
CE certified single zone quartz tube furnace with vacuum
flanges and two air cooling fans to keep flange temperature
below 70°C and to achieve 24” heating zone
Max: 20°C/min
Max: 1100°C (< 1 hour)
Cont: 1000°C
Pair of smart stainless steel vacuum sealing flange and
valve/gauge which allow to heat sample under vacuum or
flowing gas
Max: 20°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
Splittable single zone tube furnace with a 17” length constant
temperature heating zone, one pair of vacuum sealing flanges,
two vacuum valves and a pressure gauge for immediate use
Max: 40°C/min
Max: 850°C (< 1 hour)
Cont: 800°C
CE certified super alloy tube furnace with CF flange and KFD25 adapter for ultra high vacuum application up to 10-6
Torr
Max: 1200°C Cont: 1100°C
CE certified splittable three zones tube furnace with
mechanical vacuum pump & digital vacuum gauge, three
channels gas flowing system and anti-corrosive Pirani
capacitance diaphragm gauge
Max: 1200°C Cont: 1100°C
Three zones split tube furnace with sliding rail, three channel
gas mixer, vacuum pump, and anti-corrosive gauge
OTF-1200X-4-HNG- 4” O.D.
UL
OTF-1200X-5L
OTF-1200X-60HV
OTF-1200X-80-IIIF3L
5” O.D.
60 mm O.D
80 mm O.D
OTF-1200X-5-III-SF 5” O.D
12
KGC RESOURCES
Max: 20°C/min
Max: 20°C/min
MTI
USA
OTF-1200X-S-FB
Model
Working
Tube Dia.
OTF-1200X-80-VT
Heating Rate
OTF-1200X-5-VT-III
Working
Temperature
Features
VERTICAL TUBE FURNACE
OTF-1200X-S-VT
1” or 2” O.D
Max: 20°C/min
Max: 1100°C Cont: 1100°C
Consists of SS vacuum flanges whereby hook ring is welded
inside of the top flange for hanging samples, needle valves,
and dial pressure gauge
OTF-1200X-S-FB
1” or 2” O.D
Max: 20°C/min
Max: 1100°C Cont: 1100°C
Consists of a built-in filter right in the lower middle section of
the central heating zone. Its filter is a porous (15~40 microns)
quartz frit that allows the controlled gas flow pass through.
Top SS flange is designed as gas inlet & exhaust
OTF-1200X-80-VT
80 mm O.D
Max: 20°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
One heating zone split vertical tube furnace with vacuum
sealed quartz tube installed in a heavy duty mobile cart for
easy moving. SS top flange is welded with hook ring. Dial
pressure gauge is included
OTF-1200X-100VT-II
4” O.D
Max: 20°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
CE certified two zones split vertical tube furnace with vacuum
sealed quartz tube, stainless steel flanges with vacuum gauge,
valves and a hook ring included
OTF-1200X-125-VT 130 mm O.D Max: 20°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
OTF-1200X-5-VT-III 5” O.D
Max: 20°C/min
Max: 1200°C Cont: 1100°C
CE certified splittable vertical tube furnace, stainless steel
flanges, a hook ring, pressure gauge and valve are installed in
a heavy duty mobile for easy moving
OTF-1200X-4-VT-V
4” O.D
Max: 20°C/min
Max: 1200°C (< 1 hour)
Cont: 1100°C
CE certified five zones split vertical tube furnace with vacuum
sealed quartz tube, stainless steel flanges with vacuum gauge,
valves and a hook ring included
GSL-2000X-25
1” O.D
Max: 10°C/min Max: 2000°C
Ultra-high temperature furnace consists of 6” length heating
(< 30 min) chamber, tungsten wire as heating element, fiberous zirconia
Cont: 1900°C
liner for process chamber and water cooling jacket with
sample holder driven by electic motor
GSL-1700X-80VT
80 mm O.D
Max: 5°C/min
Max: 1700°C
(< 1 hour)
Cont: 1600°C
High temperature vertical alumina tube furnace consists of
150 mm heating area, MoSi2 as heating element, vacuum
flanges, dial vacuum gauges, valve and thermal blocks are
included
GSL-1700X-100VT
4” O.D
Max: 5°C/min
Max: 1700°C
(< 1 hour)
Cont: 1650°C
High temperature vertical alumina tube furnace consists of
200 mm heating area, MoSi2 as heating element, vacuum
flanges, dial vacuum gauges, valve and thermal blocks are
included
PRODUCTS CATALOG
ADVANCED MATERIAL SCIENCE
GSL-2000X-25
CE certified single zone split vertical tube furnace with vacuum
sealed quartz tube, stainless steel flanges with vacuum gauge,
valves and a hook ring included
www.kgcresources.com | www.kgcscientific.com
13
MTI
USA
CLOSE SPACE SUBLIMATION FURNACE
OTF-1200X-RTP-II
Vacuum Chamber
Model
ADVANCED MATERIAL SCIENCE
OTF-1200X-RTP-II
14
OTF-1200X-RTP-II-5
Features
• 3” round wafer holder is built in with top heater to load substrate within 11” O.D quartz tube
• Heated by two group of halogen heaters (Top and Bottom) separately with max. 20ºC/s heating rate up to 650ºC
• Two 30 segment precision temperature controllers are built in with +/-1ºC accuracy
• Top Flange with one KFD-25 vacuum port and two gas outlets can slide up or down manually
• Bottom flange has one KFD-25 vacuum port with right-angle valve and two gas inlets with needle valves
• One digital vacuum gauge is installed on the top flange
• Two flowmeters are installed with the range of 16-160 ml/min and 400-4000 ml/min
• The distance between two heaters is adjustable from 10 - 50 mm
• Water cold jacket is made of SS316 with PTFE fitting
• One high thermal conductive AlN plate (3”Dia x 0.5mm Thick) is included
OTF-1200X-RTP-II-5 • 5” square wafer holder is built in with top heater to load substrate within 11” O.D quartz tube
• Heated by two group of halogen heaters (Top and Bottom) separately with max. 20ºC/s heating rate up to 800ºC
• Two 30 segment precision temperature controllers are built in with +/-1ºC accuracy
• Top Flange with one KFD-25 vacuum port and two gas outlets can slide up or down manually
• Bottom flange has one KFD-25 vacuum port with right-angle valve and two gas inlets with needle valves
• One digital vacuum gauge is installed on the top flange
• Two flowmeters are installed with the range of 16-160 ml/min and 400-4000 ml/min
• The distance between two heaters is adjustable from 2 - 50 mm by DC motor
• Water cold jacket is made of SS316 with PTFE fitting
• One high thermal conductive AlN plate (5” Dia x 0.5mm Thick) and one recirculating water chiller are included
HYDROTHERMAL REACTOR
RC-NI100
RC-NI300
RC-TI100
RC-NI100 (100 ML) / RC-NI300 (300 ML)
RC-TI100
• Pressure vessel made of Ni-based Super-alloy
• Air cold flange via aluminum heat radiator
• Precision high pressure sensor up to 250 bar installed on
pressure vessel
• Pressure monitor can display pressure in Bar and the high
pressure alarm set point can be set
• Working temperature up to 1100ºC
• Digital temperature controller with 30 segments programmable
• 36 MPa max pressure at 500ºC
• 100 ml capacity with 55 mm OD x 20 mm ID x 214 mm H
• Pressure vessel made of high purity Titanium metal
• Can reach pressure up to 4 MPa
• Dial pressure gauge is installed to monitor the pressure
• Working temperature up to 400ºC
• Digital temperature controller with 30 segments programmable
• 3 MPa max pressure at 400ºC
• Optional 30 segments programmable temperature controller &
mini heater with built in thermocouple
• 100 ml capacity with 55 mm OD x 45 mm ID x 75 mm H
• Stainless steel needle valve with 1/4 pipe connector
KGC RESOURCES
MTI
USA
EQ-DZF-6020-HT500P
EQ-DZF-6050
General Features:
• The chamber is designed with stainless steel and welded with bracing pieces
• A good vacuum seal is achieved by silicone door gasket and positive latch door
• Vacuum port and gas inlet are installed to create a gas environment in the chamber
• PID temperature controller is installed
Chamber Dimension
Volume
LxWxH
Model
Working
Temperature
EQ-DZF-6210
Features
Power
EQ-DZF-6020 12” x 12” x 11”
25 L
Max: 250°C (< 4 hour)
Cont: 200°C
28 Segments Temperature Controller
1000 W
EQ-DZF-6050 16.3” x 13.5” x
14.5”
53 L
Max: 250°C (< 4 hour)
Cont: 200 °C
28 Segments Temperature Controller
1500 W
EQ-DZF-6020 12” x 12” x 11”
-FP
25 L
Max: 250°C (< 4 hour)
Cont: 200 °C
28 Segments Temperature Controller,
Flowmeter and Vacuum Pump System
1000 W
EQ-DZF-6020 12” x 12” x 11”
-HT500P
25 L
Max: 500°C 30 Segments Temperature Controller,
Flowmeter, Chiller and Vacuum Pump System
2500 W
EQ-DZF12” x 12” x 11”
6020-HT400P
25 L
Max: 400°C Vacuum Oven With Close-able Quartz
Window, Gas Flow-meter & Water Chiller
1600 W
EQ-DZF-6050 16.3” x 13.5” x
-HT
14.5”
53 L
Max: 500°C 30 Segments Temperature Controller,
Flowmeter, Chiller and Vacuum Pump System
2200 W
EQ-DZF-6090 18” x 18” x 18”
-HT
91 L
Max: 550°C Floor-Stand Vacuum Oven with 30 Segments
Temperature, Two heating Zones and Vacuum
Pump & Water Chiller
2600 W
EQ-DZF-6210 22” x 25” x 24”
215 L
Max: 270°C Floor-Stand Large Vacuum Oven with
Vacuum Pump and 3 Digital Temperature
Controllers
2500 W
ADVANCED MATERIAL SCIENCE
VACUUM OVEN
HOT PLATE
EQ-SH-3
EQ-SP-131320Q-230V-LD
EQ-HP-3040
EQ-HP-1515
• Flat top and high-wattage
heating elements max
working temperature 300°C
• Integral ring-stand holder
accommodates 0.5” (1.3 cm)
diameter support rod
• Accommodates sample
volume: 1000 ml
• Adjustable speed range from
50 to 1600 rpm
• Easy-to-read digital display
indicates temperature
settings, adjustable in 5°C
increments, from 5°C up to
540°C
• Adjustable speed range from
50 to 1200 rpm
• StirTrac technology offers
improved slow speed stirring
and consistent speed control
• IC digital temperature control
from 35°C - 280°C with +/1°C accuracy
• Extra flat surface and ideal for
flat substrate wax mounting
during polishing
• Excellent for heating and
mounting brittle crystal materials
at uniform temperature
• Heating area: 373 x 273 mm
• Max temperature: 500°C with
accuracy +/- 1°C
• Extra flat surface and ideal for
flat substrate wax mounting
during polishing
• SS surface which provides
uniform heat distribution and
resists spills and corrosion
• Heating area: 150 x 150 mm
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
15
MTI
USA
CONVECTION OVEN
DHG-9023Q
DHG-9040
EQ-DHG-9015
ADVANCED MATERIAL SCIENCE
EQ-DHG-9070V
16
EQ-DHG-9440V220
Model
EQ-HC-27
Chamber Dimension
Volume
LxWxH
Working
Temperature
Convection oven from MTI is a CE Certified
Mechanical Convection Oven with digital
temperature controller. It can achieve
dependable, uniform conditions by convecting
heat to the sample evenly. Such convection
oven can be widely used for drying, stoving,
wax-melting and sterilization. It is ideal heating
equipment for material R&D laboratories.
Features
Power
DHG-9023Q
12” x 12” x 11“
25 L
Max: 250°C 28 segments temperature controller and 3”
glass wool insulation to prevent heat loss from
working chamber
500 W
EQ-DHG9070V
18” x 14” x 18”
71 L
Max: 300°C (< 8 hour)
Cont: 250°C
28 segments temperature controller and
overheat protection sensor automatically cuts
power if over-heated
1500 W
EQ-DHG9140V220
21.6” x 21.6” x 16”
122 L
Max: 300°C (< 8 hour)
Cont: 250°C
28 segments temperature controller and
overheat protection sensor automatically cuts
power if over-heated
2300 W
EQ-DHG9440V220
28” x 26” x 35”
410 L
Max: 300°C (< 8 hour)
Cont: 250°C
28 segments temperature controller and
overheat protection sensor automatically cuts
power if over-heated
3500 W
EQ-DHG9000JB
14” x 14” x 14”
43 L
Max: 400°C
28 segments temperature controller and
overheat protection sensor automatically cuts
power if over-heated
2200 W
EQ-DHG9000J
14” x 18” x 18”
71 L
Max: 400°C
28 segments temperature controller and
overheat protection sensor automatically cuts
power if over-heated
3200 W
EQ-DHG9015-220
10” x 10” x 8”
12 L
Max: 250°C
Single point digital precision temperature
controller with one setting point and +/-1°C
tolerance
750 W
DHG-9040
14” x 14” x 14”
30 L
Max: 250°C
3” glass wool insulation to prevent heat loss
from working chamber and radiant warm wall
heating system provides optimal uniformity and
conserves chamber space for drying, curing, and
plating applications
1000 W
EQ-HC-27
12” x 12” 12”
27 L
Max: 250°C
Clean room compatible 100 grade ULPA filter
included and dust particle more than 0.5 micron
with 30 segments programmable temperature
controller
3000 W
KGC RESOURCES
MTI
USA
LABORATORY MILL MIXER
MSK-SFM-1
MSK-SFM-2
MSK-SFM-3
MSK-SFM-7
MSK-SFM-12M
Model
Speed (rpm)
Features
MSK-SFM-1
Main plate:
30 -350
Mixing tank:
0 - 300
• Granularity can be as small as 0.1 micron
• Timer controls major platen’s running time from 1 - 999 min
• Timer control tank rotation time from clockwise to anticlockwise direction from 1 - 99 min
• 4 500 ml alumina jars with various size of YSZ mill balls are included
MSK-SFM-2
Main plate:
0 -100
Mixing tank:
0 - 300
• Granularity can be as smaller than 0.5 micron
• Three dimensions rotation: major platen, individual tank and up-down gravity
• Digital display the speed of tank rotation in rpm
• Running time can be set from 1 - 999 min
• The ratio of main cycle speed and tank rotation speed: 1:3
• Four sets of agate milling balls included (96 balls in total) in standard package with various sizes
MSK-SFM-3
1200
• Granularity can be as small as 0.1 micron
• Can be used in either dry or wet method to mill materials and mix all kinds of solids, suspended
liquids, and pastes with different sizes and materials
• Timing range from 0 - 120 min
• One 50 ml alumina jar with one set Zirconia mill balls are included
MSK-SFM-5
0 - 1200
• Granularity can be as small as 1 micron
• 5 liter stainless steel container with water cooling jacket
• Programmable controller to set time, speed and rotation direction
MSK-SFM-6E
Rotor Rod:
0 - 1400
Clean Blade:
10 - 110
• Advanced T type sealing to keep vacuum pressure up to 12 hours
• 5 liter 304 stainless steel container with double layer water cooling jacket
• Multi-layer blending blade has variable speed from 0-2800 rpm
• A rotating blade close to container wall to keep container constantly cleaning during mixing
MSK-SFM-7
320
• Built in vacuum pump with -0.08 - 0.09 MPa
• The vibration plate is located at the bottom to remove gas bubble before vacuum mixing and
disperse the slurry after mixing
• Vibration plate frequency at 1 kHz
• One 150 ml stainless steel and one 100 ml aluminum container are included
MSK-SFM-8
Mortar:
0 -10
Pestle:
0 - 80
• Granularity can be as small as nanometers
• 5” agate mortar and agate head pestle
• Grinding pressure is adjusted by spring
• Grinding time can be set according to using the automated controller
• The mortar can be taken off easily for cleaning.
MSK-SFM-9
Stirring:
0 - 112
Dispersing:
0 - 6100
• 5 Liter tri-shaft planetary vacuum mixer with vacuum pump and PLC touch panel control
• One digital temperature controlled recirculating water chiller included
• Vacuum pump built in
• Water cooling jacket with temperature monitor and over-temperature alarm installed
MSK-SFM-11
20 - 90
• V-shaped mixing tank for separating and combining powder granules (made of SS 304)
• Digital display and simple control interface provides easy programming of mixing operations
• Timer Setting Range 1 - 900 min
• Mixing tank capacity: 2.5 L
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
ADVANCED MATERIAL SCIENCE
MSK-SFM-8
17
MTI
USA
COLD ISOSTATIC PRESS
CIP-15
CIP-20TA
Miniature CIP with Protection Cover
• 22 mm ID x 90 mm hydraulic chamber
made by ultra strength alloy
• Hydraulic pressure up to 15 metric tone
• Operating temperature between 10 40°C
• Max pressure up to 300 MPa
CIP-50A
Electric CIP with Protection Cover
Electric CIP Machine
• 30 mm ID x 100 mm hydraulic chamber
made by ultra strength alloy
• Hydraulic pressure up to 20 metric tone
• Operating temperature between 10 40°C
• Max pressure up to 278 MPa
• Operated manually with 50mm ID x
150mm H chamber
• Hydraulic cylinder pressure up to 50
metric tone
• Chamber pressure range in 0 - 250 MPa
• 1 MPa per 5 minutes pressure stability
ADVANCED MATERIAL SCIENCE
HYDRAULIC PRESS
18
EQ-YLJ-12T
EQ-YLJ-20TA-H
EQ-YLJ-24T
EQ-YLJ-60TA
EQ-YLJ-100G
Model
Max Pressure
EQ-YLJ-12T
12 T
• Built in hydraulic pump with auto return function and transparent protection cover
• 16.5” length of press rocker with net weight of 30 kg
• Max lifting height of bottom cylinder is 25 mm
EQ-YLJ-20TA
20 T
• Built in hydraulic pump with auto return function and transparent protection cover
• Pressure gauge with adjustable pressure limit switch
• 0 - 100 seconds timer setting
• Bottom hidraulic cylinder travel distance ranges in 0 - 20 mm
• Net weight of 64 kg
EQ-YLJ-24T
24 T
• Built in hydraulic pump with auto return function and transparent protection shield
• Net weight of 34 kg
• Max lifting height of bottom cylinder is 25 mm
EQ-YLJ-20TA-H
20 T
• Built in electric hydraulic pump with automatic pressure limit switch and warning timer
• Pressure gauge with built in pre-stable pressure switch and timer
• Pressure load will stop when pressure reach pre-setting point
EQ-YLJ-40TA
40 T
• Built in electric hydraulic pump with automatic pressure limit switch and warning timer
• Pressure gauge with built in pre-stable pressure switch
• Pressure load will stop when pressure reach pre-setting point
• Bottom hydraulic cylinder travel distance ranges in 0 - 25 mm
• Net weight of 55 kg
EQ-YLJ-60TA
60 T
• Built in hydraulic pump which is driven by electric oil pump with large pressure gauge
• Bottom hidraulic cylinder travel distance ranges in 0 - 50 mm
• Net weight of 209 kg
EQ-YLJ-100G
100 T
• Built in manual operated hydraulic pump with auto return, which is design for materials/
chemistry research laboratories to prepare larger samples/targets of compound ceramics
• 180 mm diameter of piston
KGC RESOURCES
Features
MTI
USA
CUTTING & DICING SAW
EQ-MT-5-LD
SYJ-160-LD
SYJ-30
Model
SYJ-200
Speed
Description
SYJ-30
Up to 2800 rpm
• Two 10” OD x 1.25” ( I.D) x 2 mm (Thick) SiC cutting blade included
• Maximum cutting section: 30 mm x 30 mm
EQ-MT-5-LD
Up to 7800 rpm
• One 2” diameter high speed steel blade for cutting metallic sample and two SiC blade
for cutting non-ferrous metal and ceramic sample
SYJ-40-LD
400 - 3250 rpm
• 4 pieces cutting blade with the diameter of 4”
SYJ-150
0 - 600 rpm
• Three 4” blades (SiC, Al2O3 and full sintered diamond type) are included for cutting
various materials
• Adjustable speed with LED display
SYJ-160
0 - 600 rpm
• Three 6” cutting blades (edge sintered diamond, SiC and Al2O3) are included for cutting
various materials
• Water-proof LCD digital micrometer with reading of 0.001 mm and accuracy of 0.003 mm
SYJ-200
300 - 3500 rpm
• Three 8” cutting blades (Sintered diamond, SiC and aluminum) are included for cutting
various materials
• Re-circulating coolant system with adjustable nozzles
SYJ-400
Up to 3000 rpm
• One 4” dia x 0.35 mm thick fully sintered diamond blade with two pairs of flanges of 62
mm dia. ( for dicing ) and 42 mm dia. (for deep cutting)
SYJ-800
Up to 3000 rpm
• Two 4” cutting blades (Fully sintered diamond and edge sintered diamond) are included
for cutting various materials
• Adjustable speed with digital controller
ADVANCED MATERIAL SCIENCE
SYJ-800
DIAMOND WIRE SAW
STX-2401
STX-603
STX-202
STX-201
STX-1202
STX-402
Model
Wire Travelling Speed
Description
STX-201
0 - 5 mm/sec
• Traveling position accuracy +/- 0.003 mm (3 microns) with a 2” Digital micrometer head
• Stage traveling distance: Maximum 2” with 360° horizontal rotating and 30° tilt stage included
STX-202A
0 - 1.5 m/sec
• Stage traveling distance Y axis: 50 mm, Z axis: 60 mm, 360° horizontal rotating, and +/-10° tilting
• Traveling position accuracy: +/- 0.01 mm
STX-402
0 - 2 m/sec
• 6” digital control panel with LCD touch screen to control moving speed of diamond wire, feeding
speed of sample stage, slicing thickness and diameter
• Maximum cutting sample: 110 mm x 110 mm
STX-603
0 - 2 m/sec
• Z and Y axis maximum traveling distance: 160mm (±0.01mm accuracy)
• 1 - 35mm/min adjustable cutting speed
STX-1202
0 - 4 m/sec
• 6” digital control panel with LCD touch screen to control moving speed of diamond wire, feeding
speed of sample stage, the slicing thickness and coolant pump operation
• Maximum cutting dimensions: Ø 300 mm × 300 mm
STX-2401
0 - 4 m/sec
• 6” digital control panel with LCD touch screen to control moving speed of diamond wire, feeding
speed of sample stage, the slicing thickness and coolant pump operation
• Maximum cutting dimensions: Ø 600 mm × 600 mm
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
19
MTI
USA
POLISHING MACHINE
MTI’s polishing machine can be used as a high precision lapping machine for polishing crystal components,
semiconductor wafers and ceramic substrates. They also can be adopted as a standard grinding and polishing
machine for preparing metallographic samples.
EQ-UNIPOL-800-LD
Model
EQ-UNIPOL-810
EQ-UNIPOL-820
EQ-UNIPOL-1000S
Description
0 - 160 rpm
• One rubber polishing bowl with one 3” glass lapping plates, two 1” dia. sample holders are
included
• Adjustable speed and time with analog control
500 - 3000 rpm
• Coolant reservoir (top black) with valve and drain container (bottom black) are included for
operating the machine anywhere
• Adjustable speed and time with analog control
50 - 600 rpm
• 12” Aluminum mater plate with magnetic pad and steel buffer sheet to make replace
diamond plate and sand paper at easy
• Digital control panel with touch button operation and water resistance
EQ-UNIPOL-820
0 -600 rpm
• Heavy duty grinding / polishing machine with two 8” lapping plates and independent speed
control
• Upgraded magnetic plates were installed in the machine, which makes installing sand paper/
polishing pad quickly and easily
EQ-UNIPOL-810
80 - 600 rpm
• Automatic slurry feeder can realize automatic dropping grinding lubricant
• Desk top installation, stepless speed adjustable, digital display rotary speed, convenient to
operate
EQ-UNIPOL-802
0 - 125 rpm
• Equipped with 8” super flat lapping plate and can be used as a high precision lapping
machine for polishing crystal components, semiconductor wafers, and ceramic substrates
up to 3” in diameter
EQ-UNIPOL-1000S
20-350 rpm
• Adjustable pressing force for different polishing conditions and materials
• Multiple sample polishing if sample size less than 50mm in diameter with adjustable speed
EQ-UNIPOL-1202
0 - 125 rpm
• Two super flat lapping plate with flatness < 0.25 micron/inch2. One cast iron plate for
lapping and one cast aluminum plate for polishing
• Two rocking work stations with wafer holders and condition rings, which can be controlled
independently for polishing 2 pcs of 4” wafers in same time
EQ-UNIPOL-160D
0 - 1500 rpm
• Can lap and polish 4 pieces of maximum 2” wafers in double sides at same time, and
achieves TTV less of one micron in 2” diameter area
• Adjustable speed analog control
EQ-UNIPOL-1502
0 - 80 rpm
• Three rocking work stations with wafer holders and condition rings
• Can be controlled independently for polishing 3 pcs of 4” wafers or 9 pieces of 2” wafers
in one running
EQ-UNIPOL-800-LD
EQ-UNIPOL-1210
EQ-PF-2-1
Assembly
20
EQ-UNIPOL-160D
Speed
EQ-UNIPOL-300
ADVANCED MATERIAL SCIENCE
EQ-UNIPOL-802
KGC RESOURCES
EQ-PF-4-1V
2” Polishing Fixture for Precision/
Automatic Thinning and Polishing
4” Polishing Fixture with Vacuum Chuck
for Faster Thinning and Polishing
• 2” sample holder to take wafer or
substrate up to 2”
• Thickness control screw fixture with
resolution of 0.005 mm
• Two micrometers are included with
resolution of +/- 1 micron
• Can fit with Unipol 801, Unipol 802 and
any precision 8” polishing machine
with York support
• 4” sample holder vacuum chuck to
take wafer or substrate up to 4”
• Vacuum chuck can suck wafer through
vacuum pump without wax
• One digital micrometer is included with
resolution of +/- 1 micron
• Can fit with Unipol 1202 and Unipol
1502 and any precision 12” or larger
polishing machine with York support
Assembly
MTI
USA
PTL-MMO1
PTL-MMO2-8P
PTL-SC-6S-LD
PTL-200
PTL-HT-2-LD
Model
Specifications
Features
PTL-MMO1
• Dipping speed within 1-200 mm/min adjustable
• Dipping travelling within 0-200 mm adjustable
• Max sample size within 50 L x 25 W x 2.5 H mm
Two screw sample clips and one 150 ml beaker are
included
PTL-MMO2
• Dipping speed within 1-200 mm/min adjustable
• Dipping travelling within 0-75 mm adjustable
• Max sample size within 50 L x 25 W x 2.5 T mm
Programmable dip coater with color touch screen
control. Two screw sample clips and one 150 ml
beaker are included
• Dipping speed within 1-200 mm/min adjustable
• Stroke length max is 300 mm
• Max sample size within 10” L x 12” W x 15 mm T
The ball screw pulling system and 6”x4” Color PLC
controller offers smooth, vibration-free travel in both
directions. Pulling rate, immersion rate, dwell time,
and cycling time are fully programmable
PTL-200
PTL-SC-6
• Dipping speed within 2-9000 micron/sec adjustable Has 6 positions sample holder for programmable.
• Stroke length max is 75 mm
The dipping speed, dip duration, retrieval speed and
• Up to 999 dips
dry duration can be set for each beaker
PTL-SC-6S-LD
• Dipping speed within 2-9000 micron/sec adjustable
• Stroke length max is 75 mm
• Up to 999 dips
• Working temperature is up to 350°C from ambient
Has a motorized substrate holder. The dipping speed,
dip duration, retrieval speed and dry duration can be
set for each beaker. Each hot plate can be set at
different temperatures.
PTL-HT-2-LD
• Dipping speed within 2-9000 micron/sec adjustable
• Stroke length max is 150 mm
• Up to 999 dips
• Working temperature is up to 200°C from ambient
Movements achieved by precision servo motor that
offers vibration and noise free with dual mode either
manual or PC mode. Infrared heater is incoporated
with it to manipulate temperature
PTL-MMO2-8P
• Dipping speed within 1-200 mm/min adjustable
• Stroke length max is 65 mm
• Horizontal moving speed: 50-500 mm/min
adjustable
A multi position precision dip coater, which can coat
5 pcs sample in one row at each time, and dip each
row of sample up to 8 position as program to achieve
multi-sample coating upto 40 pcs at each time
ADVANCED MATERIAL SCIENCE
DIP COATER
THERMAL EVAPORATION COATER
GSL-1800-ZF4
• Ultra-vacuum evaporation coater designed for coating oxygen sensitive metallic
materials , such as Ti, Al and Ir etc, also can be used for coating all kinds of materials.
which has four evaporation heater sources and coat two type of materials in same
time at high vacuum up to 10E-6 torr.
• Stainless steel chamber: 280mm ID. x 375 mm Height, ( ~23 Liter) Sand blasting
electrolytic polishing surface
• Hinged type door for easy sample loading
• Vacuum, thickness and power control are integrated into one control box
• 100 mm diameter rotating sample holder is on top of chamber with diameter 260mm,
which can be heated up to 600°C max. via digital temperature controller with +/- 1°C
accuracy
• The distance between evaporation source and sample holder is 150-300 mm
adjustable
• Tungsten heating boat has dimension 70mm L x 12 mm W x 3 mm H
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
21
MTI
USA
DIP COATER WITH CHAMBER
PTL-MMB02
PTL-HT
PTL-OV6P
PTL-MMB02-200
PTL-OV5P
Model
PTL-UMB
ADVANCED MATERIAL SCIENCE
PTL-HT
PTL-MMB01
PTL-MMB02
PTL-NMB
PTL-OV5P
PTL-OV6P
PTL-MMB02-200
22
KGC RESOURCES
Specifications
Features
• Pulling speed: 1-500 um/sec
• Max sample size: 3” L x 2” W
• Continuous working temperature: 50-200°C
• Travelling distance: 0-60 mm adjustable
Dipping rate, pulling rate, dwell time, and cycle life
can be setup by touch screen controller and run dip
coating automatically in the temperature controllable
oven
• Total stoke length: 620mm
• Pulling Speed: 1-200 mm/min
• Dwelling time: 1-999 seconds
• Continuous working temperature: 1000°C
Consists of 2” tube furnace and color touch screen
controller. Dipping rate, pulling rate, dwell time and life
cycle can be setup by touch screen. Solution is located
at the bottom of the sealed tube at room temperature,
and sample can go through a hot zone up to 800°C
• Travelling distance: 0-200 mm adjustable
• Dipping/pulling speed: 1-200 mm/min
• Max. Sample size: 3” L x 2” W
• Temperature range: 50-200°C
Controlled by SBC, which provides adjustable dipping
speed, pulling speed, and travelling length.
• Travelling distance: 0-60 mm adjustable
• Dipping/pulling speed: 1- 200 mm/min
• Max. Sample size: 3” L x 2” W
• Temperature range: 50 - 200°C
CE Certified Millimeter Grade Desktop Programmable
Dip Coater (1-200 mm/min) with “touch-screen”
digital control. Dipping rate, pulling rate, dwell time,
and cycle life can be setup by touch screen controller
and run dip coating automatically in the temperature
controllable oven
• Travelling distance: 0-60 mm adjustable
• Dipping/pulling speed: 1-500 nm/sec
• Max. Sample size: 3” L x 2” W
• Temperature range: 50 - 200°C
CE Certified Nanometer Grade Desktop Programmable
Dip Coater (1-500 nm/sec) with “touch-screen” digital
control. Dipping rate, pulling rate, dwell time, and
cycle life can be setup by touch screen controller
and run dip coating automatically in the temperature
controllable oven
• Travelling distance: 0- 75 mm adjustable
• Dipping/pulling speed: 1-200 mm/min
programmable with accuracy within +/- 0.02%
• Temperature range: 50 - 200°C
CE Certified Programmable Dip Coater (1-200 mm/
min) designed to preparing multilayer coating up to
5 solutions inside a temperature controlled oven with
touch-screen digital control. Dipping rate, pulling rate,
dwell time, and amount of cycles can be setup by
touch screen controller
• Travelling distance: 0-80 mm adjustable
• Dipping/pulling speed: 1-40 mm/min
programmable with accuracy within +/- 0.02%
• Temperature range: 50 - 200°C (+/-1°c accuracy)
CE Certified Programmable Dip Coater (1-200 mm/
min) designed to preparing multilayer coating up to
6 solutions inside a temperature controlled oven with
touch-screen digital control. Dipping rate, pulling rate,
dwell time, and amount of cycles can be setup by
touch screen controller
• Travelling distance: 0-250 mm adjustable
• Dipping/pulling speed: 1-200 mm/min adjustable
• Max. Sample size: 16” Lx 9” W
• Max. Working temperature: 100°C with +/- 1.5°C
accuracy
CE Certified Millimeter Grade Desktop Programmable
Dip Coater (1 - 200mm/min) with 124L drying oven.
It is designed to accommodate the substrates up
to 16”x 9” with fully programmable dipping/pulling
speed, dwell time and amount of cycles. The ball
screw pulling system offers smooth vibration free
travelling in both directions
MTI
USA
SPIN COATER
VTC-100A
Desktop Spin Coater with Complete
Accessories
Programmable Spin Coater with Vacuum
Chucks, Oilless Vacuum Pump & Accessories
VTC-200
Programmable Vacuum Chuck Spin Coater
with Complete Accessories
• 4” stainless steel spin plates are included, • Liquid disk made of polypropelene to resist • One 6” vacuum chuck is included for
most of corrosive solutions (1”, 2”, & 4”)
holding 6” and 8” wafers
which can hold one or multiple samples
• The spinning speed is variable from • 500 - 5000 rpm adjustable spinning speed
by wax or double-sided tape
500-8000 rpm with two programmable • Digital control panel with two programmable
• The spinning speed is variable from
segments
segments of different spin times and
0-5100 rpm
• One oilless vacuum pump and one filter
speeds
are included
VTC-100B-LD
VTC-100C-LD
Programmable Spin Coater with Vacuum Chucks, Nylon Chamber
and Optional Digital Pipette
Programmable Spin Coater with Full NPP Chamber, Vacuum Chucks
and Optional Diaphragm Pump, Digital Pipette
• PP chamber for anti-crossive operation
• One gas inlet port on top of cover which can fill inert gas during
coating
• 500 - 10,000 rpm spining speed programmable
• Digital control panel can store 9 programs and each program
has 9 segments programmable for speed, acceleration, and spin
duration
• Seamless full-PP chamber for anti-crossive operation
• Storage of unlimited* programs of unlimited steps of ± 0.1
seconds minimum each
• Speed 1-10.000 rpm ± 1 rpm steps with ± 0.1 rpm accuracy
• Spin Rotation: clockwise, counter clockwise and puddle
• Detachable control panel with full size touchscreen
• USB port for outputting the spin recipe
ADVANCED MATERIAL SCIENCE
VTC-50
SURFACE TREATMENT
GSL1100X-PJF-A
Atmospheric Plasma Beam with Automatic
Scanning System
GSL1100X-PJF
Atmospheric Plasma Jet Flow System (Plasma
Pen)
• Two plasma Beam heads are included:
- round head (10-12 mm)
- rectangular head (15-18 mm)
• Handheld or in-line processing at low cost
• Output frequency RF Generator: 20-23 kHz,
25 kV
• High speed surface treatment with simple and
safe operation
PRODUCTS CATALOG
• Two plasma Beam heads are included:
- round head (10-12 mm)
- rectangular head (15-18 mm)
• X-Y two dimension are driven by step motors
and controlled by SBC controller box
• Z axis is adjustable by manual
• Output frequency RF Generator: 20-23 kHz, 25
kV
• Max scanning area: 8” x 9”
• One vacuum pump and heavy duty mobile cart
are included
www.kgcresources.com | www.kgcscientific.com
23
MTI
USA
PLASMA SPUTTERING COATER
VTC-600-2HD
VTC-16-3HD
GSL-1100X-SPC-16-M-LD
ADVANCED MATERIAL SCIENCE
GSL-1800X-SBC2
24
Model
Description
GSL-1100X-SPC12-LD
• Designed for making metallic coatings, such as gold, platinum, Indium and silver etc which can be applied
on a sample up to 40 mm diameter with 300 Angstrom thickness
• Maximum sample of 1.5” with gold sputtering target and vacuum pump
GSL-1100X-SPC12HLD
• Heatable plasma sputtering coater and designed for making metallic coatings, such as gold, platinum,
Indium and silver etc, on a sample up to 40 mm diameter with 300 Angstrom thickness
• Built in 60 mm diameter substrate heater up to 600°C
GSL-1100X-SPC-16M-LD
• Single target compact magnetron plasma sputtering coater with double step rotary vane vacuum pump
• One magnetron with Peltier cooling device is installed on top of machine, which will provide strong sputtering
energy and produce better and faster coating for metallic target, such as Al. Zinc, and Mg etc
GSL-1100X-SPC-15E
-LD
• Compact evaporating coater with double step rotary vane vacuum pump, which is suitable for coating light
metal, Al. Mg, and Li as well as carbon film to sample up to 2” wafer
• 45 mm diameter of max coating area
VTC-16-3HD
• Three rotary target plasma sputtering coater with 2” substrate heater up to 500°C and touch screen digital
controller
• Can coat 1- 3 type of metallic material to one sample up to 50 mm diameter
VTC-600-2HD
• Dual target position magnetic sputtering system which is RF/DC convertible source
• Equipped with film thickness tracker for user easily addressing coating progress and handling data
recording
• Target size: 2” dia. x 0.5-1mm thickness within up to 20 rpm rotation
GSL-1800X-SBC2
• Integrates thermal evaporation, carbon coating and plasma sputtering coating into one machine
• High speed turbomolecular vacuum pump are installed bottom of the coater
VTC-2DC
• A compact 2“ single head DC Plasma magnetron sputtering system coating metallic. It integrates all
components into one floor stand cabinet, including DC 500W power source, quartz vacuum chamber,
vacuum pump, recirculating water chiller and film thickness monitor etc
VTC-2RF
• A compact 2“ single head RF Plasma magnetron sputtering system coating non-conductive. It integrates
all components into one floor stand cabinet, including RF 800W power source, quartz vacuum chamber,
vacuum pump, recirculating water chiller and film thickness monitor etc
SCREEN PRINTING COATER
EQ-SPC-1
EQ-SPC-2
• X, Y, and Z positions can be adjusted by the three micrometers with
vacuum chuck to load and unload substrate easily
• Max 70 x 50 mm printing area
• Vacuum chuck, 100mm x 80mm
• Screen Frame adjusting, ±10º adjustable
• One 120L/min Oillless Vacuum Pump is included for immediate use
• Dia.150 mm precision position adjustable at three dimension and
vacuum chuck to load and unload substrate easily
• Max. 155 x 255 mm printing area
• Vacuum chuck, 150 mm diameter
• Screen Frame adjusting, ±20º adjustable
• One 120L/min Oillless Vacuum Pump is included for immediate use
KGC RESOURCES
SEMICONSOFT
USA
SEMICONSOFT, INC is the premier source of thin-film thickness measurement instruments.
We offer thin film measurement systems, optical spectroscopy tools and data analysis
software. Our solutions are available for a variety of applications, from desktop and in-situ
to in-line measurement. From polymer thickness to optical coatings thickness, practically
any translucent material in 1nm - 1mm thickness range can be measured quickly and
reliably :
• Oxides, nitrides, semiconductors, photoresists
• Thin-film solar cells
SH2000: Sample Holder & Accessories
• Adhesives
• Lcd and touch screens
• Thin metals
• Hard coatings
• Biomedical coatings
• Polymer layers
• Polymer web
Wavelength
Range (nm)
Model
Spectrometer/Detector
Plasma Monitor
MProbe
Light Source
Thickness Range
MPROBE-VIS
400 - 1100
Spectrometer F4/Si 3600 pixels/
Tungsten-Halogen
MPROBEUVVisSR
200 - 1000
Spectrometer F4/ Si CCD 3600
pixels
Deuterium
Halogen
MPROBEHRVIS
700 - 1000
HR Spectrometer F4/Si 3600 pixels
Tungsten-Halogen
1 mm to 400 mm
MPROBE-NIR
900 - 1700
Transmission Spectrometer (TVG)
F2/512 InGaAs
Tungsten-Halogen
100 nm-200 mm
MPROBEVISNIR
400 - 1700
Spectrometer F4 Si CCD 3600
pixels(Vis channel);Transmission
Spectrometer (TVG)F2/512 InGaAs
PDA( NIR channel)
Tungsten-Halogen
15 nm to 200 mm
MPROBEUVVIS-NIR
200 - 1700
Spectrometer F4 Si CCD 3600
pixels(Vis channel);Transmission
(TVG) F2/512 InGaA ( NIR channel)
Deuterium
Halogen
MPROBENIRscan
2000 - 6000
(option: up to
8000)
FTIR spectrometer with MCT detector
(scan time from 4 sec )
low CCT
100 nm - 800 mm
MPROBE-XT
1590 - 1650
Transmission Spectrometer (TVG)
F2/512 InGaAs
Tungsten-Halogen
10 mm - 1 mm
MPROBE-VisMSP
400 - 1100
Spectrometer F4/Si CCD 3600 pixels/ Tungsten-Halogen
ADC- 16 bit
15nm- 20µm
(50µm optional)
MPROBE-UVVisSR-MSP
200 - 1000
Spectrometer F4/Si CCD 3600 pixels/ D e u t e r i u m / Tu n g s t e n - 1nm-20µm
ADC- 16 bit
Halogen
(50µm optional)
MPROBEHRVis-MSP
700 - 1000
Spectrometer F4/Si CCD 3600 pixels/ Tungsten-Halogen
ADC- 14 bit /resolution
1µm-400µm
MPROBE-NIR- 900 - 1700
MSP
F2 Spectrometer InGaAs CCD 512 Tungsten-Halogen
pixels: ADC- 16 bit
100nm- 200µm
MPROBEVisNIR-MSP
Two spectrometer channels/ detectors Tungsten-Halogen
(F4 Si 3600 pixels CCD and F2 InGaAs
512 pixels PDA) /ADC- 16 bit
15nm- 200µm
400 - 1700
&
&
15 nm to 20 mm
(option:up to 50 mm)
Tungsten- 1 nm to 20 mm
(option:up to 50 mm)
Tungsten- 1 nm - 300 mm
MPROBE200 - 1700
UVVisNIR-MSP
Two spectrometer channels/ detectors D e u t e r i u m / Tu n g s t e n - 1nm-200µm
(F4 Si 3600 pixels CCD and InGaAs Halogen
512)/ ADC – 16 bit
MPROBE-XTMSP
F4 spectrometer/InGaAs 512 pixels Tungsten-Halogen
PDA
1590 - 1650
PRODUCTS CATALOG
ADVANCED MATERIAL SCIENCE
THIN FILM MEASUREMENT SYSTEM
10µm-1mm
www.kgcresources.com | www.kgcscientific.com
25
GELON
LITHIUM BATTERY PRODUCTION LINE
ADVANCED MATERIAL SCIENCE
LINYI GELON LIB is providing full range of lithium battery production line from mixing
machine, coating machine, industrial oven, rolling machine, welding machine, slitting
machine, winding machine. With the experiences for more than 10 years in lithium battery
production line with self-own lithium battery factory, equipments offered are based on the
technology applied in the factory.
Latest completed project by GELON is located in La Palca, Potosi-Bolivia, whereby it
is the first lithium battery project in South America for mobile cell phone battery and E-Bike
battery.
26
KGC RESOURCES
CHINA
GELON
ADVANCED MATERIAL SCIENCE
CHINA
Pouch Cell Production Line
For additional information about lithium battery production line for coin cell, pouch cell, cylinder cell, and battery packs, please email or
contact us with expected daily production capability. We can provide technology transfer and full production line for battery cells with
production yield from 1000 Ah/day to 100,000 Ah/day.
Cylinder Cell Production Line
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
27
HARRICK PLASMA
USA
PLASMA CLEANER
ADVANCED MATERIAL SCIENCE
PDC-002
HARRICK PLASMA Cleaner models are low-cost tabletop inductively coupled plasma devices that serve
as excellent tools for surface cleaning, surface preparation and surface modification. Plasma treatment
may be applied to a wide variety of materials, including metals, ceramics, composites, plastics,
polymers and biomaterials. They are specifically designed for laboratory, R&D and office use. They offer
inexpensive, compact functionality. Key applications areas include materials science, polymer science,
biomedical materials, sterilization of dental and medical implants and instruments, optical cleaning and
micro-fluidics.
Harrick Plasma Cleaner can be employed in a broad range of surface engineering applications,
including surface cleaning, surface sterilization, surface activation, surface energy alteration, surface
preparation for bonding and adhesion, modification of surface chemistry, as well as the surface treatment
of polymers and biomaterials through activation, grafting and surface coating.
They are specifically designed for laboratory, R&D and office use. They offer inexpensive, compact
functionality. Key applications areas include materials science, polymer science, biomedical materials,
sterilization of dental and medical implants and instruments, optical cleaning and micro-fluidics.
PDC-32G-2
PDC-002
PDC-002-HP
Basic Plasma Cleaner
with PlasmaFlo
Expanded Plasma Cleaner with
PlasmaFlo
High Power Expanded Plasma
Cleaner
• Hinged door with magnetic closure and viewing window
• Active Fan cooling
• Adjustable RF power (Low, Medium, and High power settings)
• Hinged door with magnetic closure and viewing window
• 1/8” NPT metering valve to qualitatively control gas flow and chamber pressure
• 1/8” NPT 3-way valve to quickly switch from introducing gas, venting, and isolating the chamber
PDC-32G-2
PDC-FMG-2 (PlasmaFlo Gas Flow
Mixer with Digital Pressure Gauge
• Compact, tabletop unit
• Applies a maximum of
18W to the RF coil
• Larger, tabletop unit
• Integral switch for a vacuum
pump
• Applies a maximum of 30W to
the RF coil
• Larger, tabletop unit
• Integral switch for a vacuum
pump
• Applies a maximum of 45W to
the RF coil
• Low RF power setting is
equivalent to High RF power
setting on PDC-002
Tray size: 2.75” x 6.5”
Chamber size: 3” dia. x 6.5”
length
Dimensions: 8.5” H x 10”
W x 8” D
Weight: 13 lbs
Tray size: 5.5” x 6.5”
Chamber size: 6” dia. x 6.5”
length chamber
Dimensions: 11” H x 18” W x 9” D
Weight: 37 lbs
Tray size: 5.5” x 6.5”
Chamber size: 6” dia. x 6.5”
length chamber
Dimensions: 11” H x 18” W x
9” D
Weight: 37 lbs
Plasma Cleaner with Tray Harrick Plasma Cleaner: Design specifically for laboratory usage
Quartz Plasma Chamber
Chambers & Trays 28
KGC RESOURCES
• Replacement for standard Pyrex chamber
• More stable material for long-term use
• Beneficial for processes that require
extremely clean processing conditions
Quartz Sample Tray
Facilitates loading and unloading of small samples
and batch processing
• PDC-00T: 5.5” W x 6.5” L (for PDC-002)
• PDC-32T: 2.75” W x 6.5” L (for PDC-32G-2)
CORDOUAN TECH
FRANCE
CORDOUAN TECHNOLOGIES offers leading VASCO serial instrumentation for all types of particle
size analysis and characterization from the nanometer up to few microns. Measurement of particle
size distribution is routinely carried out across a wide range of industries and academics research.
Nanoparticle size distribution is often a critical parameter in the manufacture of many products
from the advanced research up to the end product.
Based on a patented innovative technology developed by the French Institute of Petroleum
(IFP), the VASCO particle size analyzer is a unique instrument for micro to nano particle size
measurements in dispersions. The measurement principle is based on Photon Correlation
Spectroscopy (PCS) of the back scattered light.
The VASCO is perfectly suited for particle size determinations down into the lower nanometer
range: with exact and reproducible results in research, development and quality control. Ideal for
pigments like for example ink or chemicals, food (for example milk), pharmaceuticals, cosmetics
and samples from the areas of environment and petrochemistry (for example motor oil).
Model
Particle Size Range (nm)
VASCO-1
VASCO-2
VASCO-3
10 to 6000
2 to 6000
1 to 6000
Sample Concentration Range
0.01% to 40%
0.001% to 40%
0.0003% to 40%
Photon Counting Unit
PM (Photomultiplier)
PM (Photomultiplier)
APD (Avalanche
Photodiode)
Sample Setting Temperature
Fixed at 20°C
+15 to +70°C
+15 to +70°C
Laser Diode Characteristic
685 nm/15 mW
658 nm/75 mW
658 nm75 mW
Reproducibility/repeatibility
Better than 5%
Analysis Software
NanoQ performs multi-acquisitions, size distribution simulation, kinetic size of aggregation
monitoring, features Cumulants, Contin and unique Padé-Laplace inversion algorithms
Measurement Range
1 x 103 to 2 x 107 g/mol
Measurement Time
30 sec to 5 min depending on sample and measurement settings
Measurement Principle
Static Light Scattering using Debye plot
Sample Volume
min=50µL and max=5mL (3-5 sample concentrations required)
Operating Temperature
+15 to 30°C
Suspending Fluid
Aqueous and Organic Solvents
ADVANCED MATERIAL SCIENCE
PARTICLE SIZE ANALYZER
The VASCO embodies know-how and innovation – for instance in the
powerful Padé-Laplace algorithm that interprets the measuring data
correctly even in the event of multimodal particle size distributions.
Of course, even conventional methods such as Cumulant or
Contin can also be used for monodispersed sample.Another special
feature: In the multi-acquisition mode, it is possible to measure entire
distributions rather than only the average value and the polydispersityindex (PI), as with the widespread Cumulant algorithm.
NanoQ Data Analysis
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
29
CORDOUAN TECH
FRANCE
NANO PARTICLE ANALYZER
At the heart of the VASCO Flex™ system is the Optical
Fiber Remote Head; it integrates into the same small
footprint housing :
• The sample laser illumination optical system
• The scattered light collector
Model
10 – 1000 nm (Up to 8 channels)
Sample Concentration Range
0.0001% to 40%
Accuracy
+/-5% (depending on measurement time)
ADVANCED MATERIAL SCIENCE
Calibration
Certified reference materials polystyrene (NIST) or customer reference
Sample Preparation
None (no dilution), in situ
30 sec to 5 min depending on sample and measurement settings (programmable)
Working distance (from probe to
sample cell)
From 4 cm up to 40 cm (following application)
Optical Fiber Patch Cord Length
1m to 20 m (standard 2 m, other lengths on demand)
On Demand Sample Cell
Configuration
• Static cell : 2ml / Standard Hellma type : disposable or quartz cell
• Flow-through cell: up to 3 bars - 4 ml/min
• Standard glass capillaries for SAXS (F 1.5 to 2 mm)
• In situ / High pressure reactor/autoclave with transparent windows
Measurement Technology
Dynamic Light Scattering (DLS)
Laser Source
65 mW @658 nm – option @532 nm
Detector
Data processing algorithm
Photon counting unit – Avalanche Photodiode (APD)
Proprietary algorithm software developed by CORDOUAN Technologies : NanoQ
Model
MAGELLAN is a unique nanoparticle
analyzer based on a patented
breakthrough technique called Laser
Induced Breakdown Detection (LIBD).
Magellan measures size distribution and
concentration of nanoparticle traces in
water with an unprecedented sensitivity
and resolution. MAGELLAN is the result of
a successful joint development between
CORDOUAN Technologies and the
Karlsruhe Institute of Technology (KIT) in
Germany.
30
• A single photon detector (APD)
• A powerful data processing linear
correlator
• An external PT100 temperature sensor
• A highly reliable fiber pigtailed laser
diode with its electrical driver
• An red alignment laser to facilitate the
OFRH positioning
VASCO FLEX
Particle Size Range
Measurement Time (typ)
The remote DLS probe is linked to a central
unit by an optimized home made optical
fiber patch cord.The central unit includes :
KGC RESOURCES
NP ANALYZER MAGELLAN
Particle Size Range
10 – 1000 nm (Up to 8 channels)
Sample Concentration Range
104 to 1011 part/ml (Typically 10ppt with 20nm
particles)
Accuracy
+/-10% (depending on measurement time)
Calibration
Certified reference materials polystyrene (NIST) or
customer reference
Sample Preparation
None – Standard laboratory practices for ultra-trace
sample analysis
On Demand Sample Cell
Configuration
• Static cell : 2ml / Flow-through cell: up to 5 bars
- 4 ml/min
• In situ / High pressure cell: up to 60 bars - 4 ml/
min
Measurement Technology
Laser Induced breakdown Detection (LIBD)
Laser Source
DPSS- power < 50mW - Pulsed laser 100 Hz –
TEM00 - @532 nm – lifetime 2 Giga shot
Detector
Piezoelectric acoustic wave sensor (Patented)
Data processing algorithm
Proprietary algorithm software developed with KIT :
ASTROLIBD
CORDOUAN TECH
FRANCE
BENCHTOP TEM MICROSCOPE LVEM5
Accelerating Voltage
5 kV
Specimen
Standard diameter 3.05
mm grids
TEM Resolving Power
2.5 nm
TEM Total Magnification
1,500 to 202,000
STEM Resolving Power
2.0 nm
STEM Min Magnification
6,000 (25 × 25 µm)
SEM Resolving Power
2.0 nm
SEM Min Magnification
800 (200 x 200 µm)
ED Min Probe Size
100 nm
ED Diffraction Lens
Magnification 3.5
Condenser Focal Length
4.3 mm
Objective Lens Focal Length 1.2 mm
TEM Camera
Retiga 4000R CCD
TEM Image Resolution
2048 x 2048 pixel
Electron Gun
SE cathode ZrO/W[100]
The LVEM5 is the smallest commercial
transmission electron microscope in the
world, and features all the standard imaging
modes that can be found in conventional
TEMs and more. LThe LVEM5 can work in
transmission (TEM – Transmission Electron
Microscope) or diffraction (SAED – Selected
Area Electron Diffraction) modes as well
as in scanning modes (STEM – Scanning
Transmission Electron Microscope and SEM
– Scanning Electron Microscope avec BSE
– Backscattered Electrons) with nanometer
spatial resolution.
The electron gun uses a Schottky field emitter which provides high
brightness and coherence with a lifetime of several thousand hours. The high
brightness and small virtual source of the electron gun allows transmission
and scanning modes.
Permanent magnet lenses, an electrostatic lens and electrostatic
stigmators and deflectors are used in the electron optics. Permanent magnet
lenses are very stable and do not need any cooling.
ADVANCED MATERIALS CORPORATION(AMC) USA
HYDROGEN ABSORPTION/DESORPTION SYSTEM
ADVANCED MATERIAL SCIENCE
TEM MICROSCOPE
ADVANCED MATERIALS CORPORATION’s Gas Reaction Controller is also known
as Pressure Composition Isotherm measurement system. Many intermetallic
compounds such as LANi5 and ATLANTES absorb and store copious quantities
of hydrogen and release it in a controlled reversible operation. These hydrogen
storage materials are being increasingly used in fuel cells, rechargeable
batteries etc. This model provides a convenient, reliable and reproducible way
to evaluate the gas absorption/desorption characteristics of these materials.
The unit operates with minimal attention by the operator.
It offers a wide range of operating pressure (0.01 to 200 atmospheres)
and temperature (-60°C to 900°C). Options include a cryostat to lower
measurements to -100°C and operations with other gases such as nitrogen.
The instrument is supplied with a personal computer and software for total automation of the experiments in a reliable manner. The data
are shown on a digital panel during the experiment, graphically displayed on the PC monitor and is stored in the computer. At the end of
an experiment, the stored data is processed to provide results in a tabular and graphical format. Option exists to alter the experimental
sequence during the process of measurement. The instrument has a safety provision to ensure shut-off in case of accidental exposure to
high pressures.
Type of Gas
Hydrogen, nitrogen and other inert gases (or their mixtures)
Operating Temperatures
-100°C to 900°C (temperature higher than 900°C are available as options)
Pressure Resolution Ranges
0.005 to 1.5 atmospheres / 0.02 to 50 atmospheres / 0.1 to 200 atmospheres
Accuracy and Resolution
Absorption and desorption modes- 1 Cubic Centimeter of gas at STP
Sample Holder Dimensions
Standard is 2cc (~9.3 mm diameter and 25 mm long)
Software Features
• Fully automated measurement of the PCI curves
• Kinetic measurements during absorption and desorption
• Color graphic display during the progress of an experiment
• Cycle life of hydrogen storage materials
• Data management
• Manual operation, if necessary
• Alarm and interlock for excess temperature/pressure
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
31
ELECTROSPINZ
NEW ZEALAND
ELECTROSPINNING MACHINE
ELECTROSPINZ produces a modular range of laboratory electrospinning machines aimed at material laboratories who would like to get
started with manufacture of novel materials rather than spend time devising a small scale-spinning machine. Electrostatic attraction of
liquids was first observed by William Gilbert in 1628, and attempts were made to commercialise the process in the 1900s and 1930s. In the
late 1960s the physics of thread formation were described. More recently electrospinning has emerged as a ready way to produce nanoscale
polymer fibres.Potential applications for these materials include biocomposites, bioprocessing media, electronic technologies, bio-prosthetics,
medicine, packaging, filtration, drug delivery, tissue engineering, high performance nano-composites, catalysts and bioremediation.
Electrospinz provides a complete turnkey package including a starter pack of consumables.Electrospinz machine use standard
catalogue parts to minimise down time and running costs. Electrospinz machines design means that all parts in direct contact with spinning
solutions are disposable.
Electrospinz machines are modular – buy an entry-level machine and upgrade to suit your developing research needs. Electrospinz
machines are available with either constant pressure or constant volume feed systems.Electrospinz machines have a sturdy welded stainless
steel structure to cope with a wide range of spinnable solutions. Electrospinz machines run off a single standard wall socket
ADVANCED MATERIAL SCIENCE
ES1A
Model
ES4
ES1A
Description
Single 150 mm Electrospinning Platform
Double 200 mm Electrospinning Platform
Spinning Distance
The moveable spinning head
can be set from zero to 150mm from the fixed target
plane; this can be adjusted during
operation
The moveable spinning head
can be set from zero to 200mm from the fixed target
plane; this can be adjusted during
operation
Adjustable from zero to +33,000 VDC
Spinning Power
Hose Type
Silicone rubber
Features
• Base and control box are constructed from stainless steel.
• Insulating materials are acetal.
• Target plane: 300mm x 350mm x 10mm polyethylene (PE)
• Electrical connection fittings are brass.
• Header tank is glass.
• Spinning tip is high density polypropylene.
Electrospinz basic diagram
32
ES4
KGC RESOURCES
Polyurethane
Electrospinz machines are designed with
an internal high voltage power supply. Most
laboratory high voltage power supplies are not
designed for applications like electrospinning
and hence include unnecessary features
making them more expensive. Electrospinz
uses a high voltage supply that is laboratory
quality but with only the features needed for
small scale electrospinning.
All Electrospinz machines are
constructed to the electrical part of the BS EN
50 059: 1991 specification for electrostatic
hand-held spraying equipment for nonflammable material for painting and finishing.
SPI SUPPLIES
USA
The SPI Plasma Prep™ Plasma Cleaner is a compact ‘bench top’ sized plasma cleaner, that uses the “dry plasma process” for the removal
of contamination on the TEM specimen holder, the sample itself, and also the part of the rod assembly for side entry goniometer stages
actually seeing the high vacuum. This technology is generally thought to be applicable mainly for materials sciences investigators and not for
life science investigators, or those working with polymers or other organic materials.
Model
Plasma Prep™ III
Plasma Cleaner
Step 3
Step 2
Step 1
Features
• Capable of 1 to 100 watt operation with most work done in the 1 to 10 watt range. This low wattage allows
operation with argon without having deleterious impact on either the specimen holder, rod, or the specimen
itself. This low power is enough to dislodge surface held contamination but not enough to actually “etch”
the sample or rod or holder assembly.
• Barrel type design for isotropic plasma cleaning which is the ideal geometry of the plasma to get into the
various “nooks and crannies” of the specimen holder and contact areas between the specimen itself and
the holder assembly.
• Air vent bleed control valve: Allows operator to precisely control the rate of air flow when venting to the
chamber. A sudden rush of air could disturb a fragile sample. The valve is easily accessible inside the
cabinet of the plasma cleaner but discourages the changing of the bleed rate
• Compact, Efficient Design: Small footprint, with room inside to process samples in batch quantities.
Dimensions: 10- 1/2” (26.7cm)H x 14-3/4” (37.5cm)L x 12” (30.5cm)W; chamber is 4” (10.15cm) internal
diameter, 6” (15.25cm) deep.
• Highly portable: Weight is only 32 lbs (14.5kg), not including the weight of the separately installed rotary
(mechanical) pump.
ADVANCED MATERIAL SCIENCE
PLASMA CLEANER
OSMIUM PLASMA COATER
Model
Features
OPC-60A
• Designed to be an all-automatic osmium coater, using
osmium tetroxide as the source for the osmium
• Sample stage options: 9.5 or 10 mm diameter cylindrical
SEM mounts, 7 positions, or 15 mm diameter cylindrical
SEM mounts, 4 positions, or 32 mm diameter cylindrical
SEM mounts, 1 position
• For coating “pin type” SEM mounts, one must use an adapter
mount appropriate for the size of the pin mount to be coated
• Power consumption: 1 kW
• Dimension: 48 cm W x 42 cm D x 41 cm H
OPC-80T
• Designed to operate only in the fully operational mode
whether depositing osmium metal or carbon
• The sources for the osmium and carbon, respectively, are
glass ampoules of osmium tetroxide and the source of the
carbon is technical grade naphthalene
• The deposited coating of osmium metal is ideal for the
preparation of samples for SEM and the carbon coating, for
EDS analysis
• Select sample stage between holes to accommodate either
four 10 mm round cylindrical mounts or four 15mm round
cylindrical mounts. Other options are available upon request
• Dimension: 48 cm W x 42 cm D x 41 cm H
PRODUCTS CATALOG
OPC-60A
Like with other systems manufactured and distributed
by SPI Supplies, our philosophy is to design a system
in a way that, with good set up instructions, a user can
literally take it out of the box, follow some easy set up
instructions and be on his way in a few hours, all without
the need for a costly service engineer to be present to
do this for the customer. Nothing really special is needed
in the way of power requirements, cooling water is not
needed, however, the unit should be placed on a solid
table top surface during operation. Also a conventional
rotary vane mechanical pump is needed.
www.kgcresources.com | www.kgcscientific.com
33
SPI SUPPLIES
USA
PLASMA ETCHER
Plasma Prep™ III
Plasma Prep™ II
Plasma-Prep X™
Plasma Prep™ Jr.
An etcher, sometimes called a plasma reactor, operates at 100 watts or higher, and a ‘cleaner’ operates at 50 watts or lower, in some
instances as low as 10 watts. The higher power of the etcher is usually required to move ‘material’ such as photoresist residue on a wafer
but a plasma cleaner is more appropriate for the removal of surface sorbed contamination from a fragile TEM specimen.
The Plasma Prep III (PP III) is the new generation of the popular and long serving Plasma Prep II RF based unit. With its compact
tabletop design and ease of use, the new generation now employs a solid state design to deliver the same 100W system performance.
Furthermore, the small footprint allows the system to fit neatly in most any laboratory environment.
ADVANCED MATERIAL SCIENCE
Model
Features
Plasma Prep™ III
• Flexible range. Capable of 1 to 100W operation
• Greater stability
• Reproducible conditions.
• Same small footprint as the PP II (10.5” H X 14.75” W X 12” D measurements)
• Integrated vacuum gauge
• Measurement and adjustment of forward and reverse power
• Digital metering
• 4” diameter x 6” depth Pyrex or Quartz Chamber
Plasma Prep™ II
• Air Vent Bleed Control Valve - Allows operator to precisely control the rate or air flow when venting the
chamber
• Low Temperature Operation - Ideal for bulk samples; ashes organics without destroying delicate specimen
structure
• Rugged Circuitry/Sturdy Chassis - Performs consistently at high voltage/high output for long periods
• Compact, Efficient Design - Small footprint, with room inside to process samples in batch quantities. 10-1/2”
(26.7cm)H x 14-3/4” (37.5cm) L x 12” (30.5cm)W; chamber is 4” (10.15cm) internal diameter, 6” (15.25cm)
deep
• RF Monitor/Safety Signal - The generator automatically switches to pulse mode to prevent overheating of the
RF tubes.
• Safety Switch - Automatically cuts the RF field for safe sample viewing.
• Plasma cleaning at very low power
• Quartz chamber available as optional item for use with reactive fluorine (e.g. CF4) gasses which would “etch”
ordinary glass and cause it to become frosted.
Plasma-Prep X™
• Two gas inputs, run separately or together; flow rates controlled by needle valves.
• Rugged circuitry and automatic monitors.
• RF Power is continuously variable (1-150 watts) at 13.56 MHz with a crystal controlled oscillator.
• RF Power Transfer: 125 mm electrodes (2), water-cooled.
• Unit accommodates a 7” wafer in a work chamber that is 10” dia. x 5-1/2” high.
• Cooling water flows at a rate of 2 to 4 liters/minute to prevent heat damage to the forward power plate
electrode
Plasma Prep Jr. Comes in Two Configurations:
Plasma Prep™ Jr.
• A Fast-Acting Barrel Reactor, ideal for samples that can withstand some high temperature exposure. For
temperature-sensitive samples, simply decrease plasma power and extend processing time. The Pyrex
chamber of this unit measures 4” in diameter and 6” in length
• A Water-Cooled Reactor, featuring a water-cooled base plate that “heat sinks” the sample allowing for higher
process rates at lower temperatures. The water-cooled unit comes in two sizes: Small, with a power range
of 100-550 watts and a chamber measuring 8” x 6” x 2”; and Large, with a power range of 100-700 watts
and a chamber measuring 9” x 7” x 3”
34
KGC RESOURCES
TORREY HILLS
USA
THREE ROLL MILLS
As you see in the illustration, the material is loaded
between the feeder roll and the center roll. Due to the
narrowing space between the rolls, most of the mixture
is rejected to the feed region. The part does make it
through experiences very high shear force and disperses
the pigment particles in the binder. As it comes out the
other side, the material that remains on the center roll
moves through to nip between the center roll and apron
roll, experiencing even high shear force due to the higher
speeds. A blade automatically scrapes the processed
FEEDER ROLL
mixture off the apron roll transfers it to the apron. The
three roll milling cycle is repeated many times until the
CENTER ROLL
material is perfectly dispersed and the particle size is in
the good range.
APRON
BLADE
APRON ROLL
Model
T50 Ointment Mill
Roller Material
Ceramic (Alumina)
Diameter of Roller
50 mm
Length of Roller
178 mm
Speed of Roller
0 - 219 (Slow Roller);
0 - 394 (Mid Roller);
0 - 723 (Fast Roller)
Motor Power
120 W
Net Weight
21 kg
Throughput
Up to 15 kg/h (one pass)
Overall Dimension
346 x 220 x 230 mm
T65
Model
After the extremely successful
T65 series three roll mill, Torrey
Hills Technologies applied its
award winning technology to the
development of T50 ointment mill,
featuring user friendly interface, all
stainless steel structure, advanced
fine adjustment mechanism, and
super fast processing of material.
Priced competitively and with little
to none maintenance required, the
cost of ownership is the lowest in
the market.
T50
This three roll mill lab model offers faster roller speeds and higher throughput up to
3.75 gallons or 30 pounds per hour. Variable frequency drive allows stepless speed
control and slow speed runs. Roller spacing and adjustment is set manually with quick
engagement mechanism by the use of four small hand wheels. Safety trip limit switch
(in the form of a pull cord), emergency stop button, slow-speed washup mode capability
and nip guard make this three roll mill very safe to operate. Other advantages include
self-lubricating gears and Teflon end plates. Three roll mill rollers are precision ground
420J2 stainless steel to prevent rust or erosion. The hardness is rated at HR50-60 for
reliable long-life usage. Rolls are cored for either cooling for heating (T65 and T65-B).
Manifold, valve, and collection tank are standard. Rollers are ground to 5um concentricity
and 0.5um surface finish for precise applications
T65 Lab Model
The Workhorse
T65-A Lab Model
The Occasional Grinder
T65-B Lab Model
The Supercharged
Stainless Steel or Ceramic
Ceramic
Stainless Steel or Ceramic
Diameter of Roller
65 mm
65 mm
65 mm
Length of Roller
127 mm
127 mm
260 mm
Roller Material
Roller Speed Ratio
Speed of Roller
Motor Power
Dimension
PRODUCTS CATALOG
ADVANCED MATERIAL SCIENCE
A Three Roll Mill (Three Roll Mill 101) has three horizontally positioned rollers. Each roller rotates in an opposite direction from the adjacent
roller with a tiny gap between them, creating tremendous shear force that can finely disperse, mix, refine or homogenize viscous materials.
They are widely used to mix electronic thick film inks, high performance ceramics, cosmetics, plastisols, carbon/graphite, paints, printing
inks, pharmaceuticals, chemicals, glass coatings, dental composites, pigment, coatings, adhesives, sealants, and foods.
1:2:4
1:2:4
1:2:4
0 - 108 (Slow Roller);
0 - 216 (Mid Roller);
0 - 432 (Fast Roller)
0 - 55 (Slow Roller);
0 - 110 (Mid Roller);
0 - 220 (Fast Roller)
0 - 108 (Slow Roller);
0 - 216 (Mid Roller);
0 - 432 (Fast Roller)
0.55 kW
0.02 kW
0.55 kW
635 x 280 x 381 mm
635 x 280 x 381 mm
770 x 290 x 400 mm
www.kgcresources.com | www.kgcscientific.com
35
TORREY HILLS
USA
BELT FURNACE
ADVANCED MATERIAL SCIENCE
TORREY HILLS TECHNOLOGIES, LLC is the leader in developing and delivering innovative yet affordable industrial furnace equipment to diverse
industries. Our firing and drying conveyor belt furnaces have been widely used in solar cell (photovoltaic’s) manufacturing, semiconductor
packaging, circuit board assembly, and advanced materials processing (thick film, metals, ceramics, and various electronic components).
HSK series belt furnaces serve diverse industries such as microelectronics packaging,
which includes IC, SMT, HIC, MCM and MEMS applications, and advanced materials,
including thick film, electronic component, photovoltaic cells, ceramics and metals
processing applications.
HSK SERIES FAST FIRE FURNACE
Specification
HSK2505-0611
HSK3505-0711
Max Temperature
HSK6305-0711
1050°C
Belt Width
250 mm
350 mm
Tunnel Height
635 mm
50 mm
Heating Length
2700 mm
3150 mm
3220 mm
Cooling Length
1200 mm
1300 mm
1220 mm
6
7
7
Control Zone
Conveyor Speed
30-200 mm/min
40-200 mm/min
+/- 2°C
+/-3°C
Temperature Uniformity
THICK FILM
DRYING FURNACE
INFRARED
PHOTOVOLTAICS BELT
FURNACE
PHOTOVOLTAIC
BELT FURNACE
INFRARED PHOTOVOLTAICS DRYING
FURNACE
HSG6005-0304
HSH2503-0310
HSK3505-0711N
HSG3003-0402
HSG5502-0403
350°C
1000°C
1050°C
200°C
300°C
600 mm
254 mm
350 mm
300 mm
550 mm
Tunnel Height
-
30 mm
50 mm
24 mm
15 mm
Heating Length
1500 mm
1250 mm
3220 mm
1200 mm
Model
Description
Max Temperature
Belt Width
Control Zone
Conveyor Speed
Applications
3
7
50-450 mm/min
600-4000 mm/min
Highly
efficient;
Super light insulation
materials;
Energy
efficient; Multi-zone
control; Convenient
adjustment.
Infrared lamp heating; High
speed; Highly efficient;
High uniformity; Energy
efficient; Environmentally
friendly.
40-200 mm/min
2500 mm
4
45-285 mm/min
250-1500 mm/min
Fast thermal response;
Uniform and stable
Highly efficient; Super light insulation materials;
temperature control;
Energy efficient; Multi-zone control; Convenient
Energy efficient; Perfect
adjustment.
for Dye Sensitized Solar
Cell processing.
HT SERIES PUSHER TUNNEL FURNACE
One of the major applications is to process different LiFe2PO4 materials including ferrous oxalate, ferric oxide, and ferric phosphate, etc.
using single-row, two-row, four-row pusher (straight type, circulation type), or AB combined air/atmosphere controlled pusher kiln.
36
Max Temperature: 1430°C
Air/Nitrogen Capability
Automatic circulation hydraulic pusher
Adjustable exhaust capacity
KGC RESOURCES
YES SOLUTIONS
KOREA
SINM-0.5
In recent years, the demand for both high level dispersion and high precision
dispersion has increased as represented by nano-technology.
• Designed for both high-level dispersion and high-precision dispersion
• Nano dispersion machines compatible with 0.1 mm beads has been
developed
• Non-seal structure: There are no maintenance cost for exchanging the
mechanical seal or lip seal
• Separator-free structure: There is no pressure increasing in flowing sample
streams and there is no need to build in the chamber and seal pot to check
the pressure
• 0.1 mm beads zirconia are available for this beads mill
• Vertical centrifugal motor operation with zirconia material
Suitable for Secondary Battery, Carbon Nano Tube, Paint/Pigment/Ink, Ceramic Material, Pharmaceutical/
Cosmetic, Glass Powder, Advanced Material for High Technology, Metal Flake/Coating
SI NANO MILL
Model
Chamber
Power
Max Rotor Speed
SINM-0.5
0.5 Liter
220VAC, 0.8 kW
5,000 rpm
SINM-1
1 Liter
220VAC, 1.5 kW
5,000 rpm
SINM-3
3 Liter
220VAC, 2.2 kW
3,000 rpm
SINM-5
5 Liter
220VAC, 5.5 kW
2,400 rpm
SINM-10
10 Liter
220VAC, 11 kW
1,000 rpm
SINM-30
30 Liter
380VAC, 22 kW
800 rpm
SINM-50
50 Liter
380VAC, 30 kW
600 rpm
ADVANCED MATERIAL SCIENCE
WET MILLING MACHINE
SI Super Mill interior design
SI Super Mill HMI interface
SI Super Mill Batch
SI Super Mill H
SI Super Mill H is the newest bead mill for ultrafine dispersion
and nano grinding. This mill has compact size vessel with disk
design and this has a strong grinding effect compared to the
conventional ones. Even though the acting volume is small,
the motor power can be compensated to its size. The narrow
difference of circumferential speed can affect the power of
the energy efficiently and then the sample can be dispersed
homogenously.
SI SUPER MILL
SI Super Mill Batch is the combination of attrition mill and bead mill
technology whereby the impeller pin forces the high shear stress in the
sample with beads. This is the new design for batch type bead mill.
• Beads range from 0.2 mm to 1 mm
• Cooling jacket type for control the sample heat from the chamber
• Short time to operate because of the ultra shear force by pin motion
impeller
Model
Chamber
Power
Max Rotor Speed
SISM-1
1 Liter
220VAC, 3.5 kW
2,800 rpm
SISM-3
3 Liter
220VAC, 5.5 kW
2,000 rpm
SISM-5
5 Liter
220VAC, 7.5 kW
1,500 rpm
SISM-10
10 Liter
220VAC, 11 kW
1,000 rpm
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
37
YES SOLUTIONS
KOREA
WET MILLING MACHINE
SI SUPERSONIC dispersion can be performed by rapid velocity dispersion using air. This mill ejector concept involves the introduction of an
array of large scale low intensity streamwise vortices into the downstream mixing duct that enhances mixing through an inviscid stirring
process. There is no worry of contamination as this is a bead free type of mill. The problem of the heat from the sample collision between
sample plate and sample itself can be minimized during the process. As per secondary battery application, especially anode material
dispersion can be performed successfully with this equipment.
SD-500
Impulsive Force
Slurry Mist
(6-13um)
Supersonic Air
Shearing Force
SI Supersonic Mill Interior Design
Features:
• Media: 1 mm - 10 mm Ball
• Material: ZrO2, Al2O3, SUS, PTFE
• Cooling Jacket Type
SI SUPERSONIC MILL
ADVANCED MATERIAL SCIENCE
Model
• Max 900 - 1,200 rpm
• Up-down Lifting
• LCD Monitor Controller with PLC
Capacity
Pressure
Target
SD-500
50 - 150 cc/min
0.7 MPa
Zirconia, T/C, Diamond
SD-500-S
50 - 150 cc/min
13 MPa
Zirconia, T/C, Diamond
3 Liter/min
0.7 MPa
Zirconia, T/C, Diamond
SD-3-K
DRY MILLING MACHINE
SIJM-LA
Pulverization takes place in the central chamber of SI JET MILL as the
process material is driven at near sonic velocity around the perimeter of
the toroidal chamber by multiple jets of air. No grinding media is involved.
Size reduction is the result of the high velocity collisions between
particles of the process material itself. The interior of the chamber is
designed to enable recirculation of over-sized particles, enhancing the
incidence and the effect of these collisions. As particles are reduced in
size and progressively lose mass, they naturally migrate towards the
central discharge port, making precise auto-classification as well as
precise control. The process involves no moving part or screen and it
is suitable for virually any friable or crystalline materials, even materials
that are very abrasive.
SIJM-LB
SIJM-PR
Suitable for Battery Material, Cereals, Paint/Pigment/Ink, Ceramic
Material, Pharmaceutical/Cosmetic, Toner/Ferrite, Animal Bone, Coating
Features:
• Using ceramic lining, zirconia or silicon carbide to prevent iron contamination during
jet milling process
• Heat free dispersion is available
• Cyclone separator for classifier
• Bag filter for acquiring finest material
SI JET MILL
Model
38
Capacity
Power
Feeder
Compressor
SIJM-LA
50 - 200 g/hr
220V, O.4 kW
Piezo Feeder
Above 3 HP & 140 L
SIJM-LB
150 - 1,000 g/hr
220V, 0.4 kW
Screw Feeder
Above 5 HP & 160 L
SIJM-PR
About 20 kg/hr
220V, 5 kW
Screw Feeder
Above 20 HP & 200 L
SIJM-200
About 20 kg/hr
220V, 3 kW
Screw Feeder
SIJM-300
About 50 kg/hr
220V, 3kW
Screw Feeder
SIJM-500
About 150 kg/hr
220V, 5 kW
Screw Feeder
KGC RESOURCES
YES SOLUTIONS
KOREA
SI ACM Mill
Suitable for Food, Coffee, Dried Mixed Feed,
Cereals, Resin, and Chemical Material
SI ACM MILL is a mechanical impact mill with an integrated, dynamic air classifier. Very
fine grains free of coarse particles can be achieved by this adjustable classifier wheel. The
self-regulating internal circulation of the coarse material inside the machine housing creates
an extremely stable operation. The integration of a mechanical impact mill and dynamic air
classifier in a single housing offers the user numerous benefits. The design of the machine
housing enables fast, complete cleaning of the machine when products or batches are
changed.
Features:
• Particle size reduction ranges from
15 to 50 um
• Loading sample size: max 20 mm
• Easy to adjust the particle size
distribution using controller of
wheel speed
Wheel design
SI ACM Mill HMI interface
• Production scale up
SI ACM MILL
Model
Capacity
Rotor Power
Separator
Mill Speed
Separator Speed
SIACM-L
1 kg/hr
1.5 kW
Screen Mesh
11,000 rpm
Screen 0.4 - 3 mm
SIACM-200
20 kg/hr
7.5 kW
1.5 kW
7,000 rpm
4,000 rpm
SIACM-300
30 kg/hr
11 kW
2.2 kW
5,000 rpm
3,200 rpm
SIACM-500
50 kg/hr
22 kW
3.7 kW
4,000 rpm
2,500 rpm
With the high shear force by rotating knife impeller in the mixing
chamber, the mixing chamber itself turns clockwise at 30 rpm
fixed. This simultaneous mixing affects the homogeneous mixing
and particle size reduction of dried sample. The max speed of knife
impeller is 14,000 rpm.
ADVANCED MATERIAL SCIENCE
DRY MILLING MACHINE
From 10 liter mixing chamber size, double jacketed chamber is
built for cooling the inner chamber to prevent emitted heat from
the sample inside and the vessel itself can be removed by air lift.
All operation is performed using touch panel controller.
SILS-10K
SILS-300
Clockwise rotation of milling zone
Suitable for Herbal Medicine, Cereal, Pain/Pigment, Pharmaceutical/Cosmetic, Ceramic Material, Toner/Metal Ribbon, Advanced Material for
Environment, and Animal Bone/Coating
Metal Ribbon
Animal Bones
SI POWDER MIXER
Model
Capacity
Power
Rotor Speed
300 cc
220V, 0.4 kW
Max: 14,000 rpm (Rotation: 30 rpm)
SILS-3K
2 Liter
220V, 0.8 kW
Max: 14,000 rpm (Rotation: 20 rpm)
SILS-10K
10 Liter
220V, 1.5 kW
Max: 5,000 rpm (Rotation: 15 rpm)
SILS-30K
30 Liter
220V, 3 kW
Max: 5,000 rpm (Rotation: 15 rpm)
SILS-50K
50 Liter
220V, 5 kW
Max: 5,000 rpm (Rotation: 15 rpm)
SILS-300
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
39
YES SOLUTIONS
KOREA
PASTE MILLING MACHINE
SI PLANETARY DISPERSER MIXER is an invaluable multi-purpose mixer for mixing and kneading
of solid pigments and liquid materials with high viscosity. The rotation of the two blades and one
orbital motion can make the mixture a highly effective function with interval of rotation and detailed
clearance between blades and mixing chamber.
Features:
• Wide variety of use from mixing dry powder particles for kneading high viscosity material of
1,000,000 cps
• The vessel can be sealed, allowing for mixing in a vacuum. An optional container with jacket makes
available quick heating or cooling
Suitable
for
Silver
Paste, OLED Paste,
LCD Sealant, Ceramic
Material, Pharmaceutical/
Cosmetic, Glass Powder/
Metal Ribbon, Advanced
Material for Environment,
Blade design
Ultrasonic disperser design
and Solar Cell/Coating
SIPLDM-0.6
SI TRIPLE PLANETARY MIXER can shorten the operation time compared to
double type planetary mixer and also to minimize the dead space of mixing
chamber. It contains two twisted blades that move simultaneously on their
own axises while orbiting the vessel in planetary motion.
ADVANCED MATERIAL SCIENCE
SITPM-15
SITPM-1
SI PLANETARY DISPERSER MIXER
Model
Charge Capacity
Disperser (optional)
Power Source
Motor
SIPLDM-0.6
About 0.3 Liter
2000
220V, 0.4 kW
Servo motor
SIPLDM-1
About 0.6 Liter
2000
220V, 0.5 kW
Servo motor
SIPLDM-3
About 1.5 Liter
2000
220V, 0.8 kW
Servo motor
SIPLDM-5
About 3 Liter
1200
1.5 kW
Induction
SIPLDM-20
About 15 Liter
1200
2.2 kW
Induction
SIPLDM-30
About 20 Liter
1200
5.5 kW
Induction
SIPLDM-50
About 35 Liter
1000
7.5 kW
Induction
SIPLDM-100
About 60 Liter
1000
11 kW
Induction
SIPLDM-200
About 120 Liter
700
22 kW
Induction
SIPLDM-300
About 200 Liter
700
30 kW
Induction
SI TRIPLE PLANETARY MIXER
Model
40
Working Capacity
Power
SITPM-1
0.6 Liter
0.7 kW
SITPM-3
2 Liter
1.5 kW
SITPM-5
3 Liter
2.2 kW
SITPM-15
10 Liter
3.75 kW
SITPM-30
20 Liter
5.5 kW
SITPM-50
35 Liter
7.5 kW
SITPM-100
60 Liter
11 kW
SITPM-200
150 Liter
22 kW
SITPM-300
200 Liter
30 kW
KGC RESOURCES
YES SOLUTIONS
KOREA
Ultra high presssure pump will pressurize the product through the hydraulic system and intensifier pump. The pressurized product will be
passed through the NANOCELL (a fixed diamond nozzle of 70 micron to 100 micron is inserted inside the NANOCELL), and, at this point, by
taking the power of the high shear, impact, and cavitation, the phenomena such as dispersion or emulsion would occur. The heat generated
is to be cooled while passing through the heat exchanger.
Suitable
for
CNT,
ceramics, inkjet inks,
polymers,
pigments,
conductive inks, electric
materials, and metal
NANOCELL Principle
particles dispersion.
SI-MN400BF
SI-MN600P-100
SI-MN250A
SI-MN250A
SI-MN400BF
SI-MN600P-100
Operating Pressure
Model
3,000-25,000 psi
3,000-40,000 psi
10,000 psi
Flowrate
up to 350 ml/min
up to 300 ml/min
up to 100 l/hr
Feed Temperature
Range
Max 80°C
Min Sample Size
Dimension
Features
60 ml
120 ml
2 liter
584 L x 524 W x 530 H mm
750 L x 700 W x 1300 H mm
1360 L x 800 W x 1350 H mm
• Diamond NANOCELL
• Air driven intensifier pump
• Back flushing system
• Sanitary fittings
• Closed cooling jacket
• Diamond NANOCELL
• Electric-hydraulic power unit
• Stainless steel enclosure
• Design for clean-in-place with no
disassembly required
• 1 liter stainless steel reservoir
• Product heat exchanger
SI-MN300P
PRODUCTS CATALOG
• Diamond NANOCELL
• Electric-hydraulic power unit
• Dual intensifier pump
• Stainless steel enclosure
• Design for clean-in-place with no
disassembly required
• 3 liter stainless steel reservoir
• Product heat exchanger
Model
SI-MN300P-15P
Operating Pressure
3,000-30,000 psi
Flowrate
ADVANCED MATERIAL SCIENCE
NANO DISPERSION HOMOGENIZER
up to 80 l/hr
Feed Temperature
Range
Max 80°C
Min Sample Size
4 liter
Dimension
1680 L x 700 W x 1330 H mm
Features
• Diamond NANOCELL
• Electric-hydraulic power unit
• Stainless steel enclosure
• Designed for clean-in-place with no
disassembly required
• Back flushing system
• Materials of construction for wetted surfaces
included: 316SS, PEEK, UHMWPE, PTFE, VITON
• Product heat exchanger
• Feed pump system
www.kgcresources.com | www.kgcscientific.com
41
SEC
KOREA
ADVANCED MATERIAL SCIENCE
MINI SEM
42
SEC Mini-SEM series is focused on two
essentials: powerful performance and
user-friendly operation. Using the table-top
compact configuration, Mini-SEM provides
high-resolution, high-magnification SEM
images with the ease of use. Auto-focus,
Auto-auto brightness and contrast produce
an excellent image every time.
No doubt about strong performance
and flexible integration. 5-axis full stroke
control and 4-hole variable aperture of MiniSEM 4500M help fine-resolution SEM image.
Built-in multi detector (SE+BSE) of MiniSEM 3200M provides the ideal observation
for each different type of specimen. All MiniSEM series including Mini-SEM 3000MB
Mini-SEM Operating Software - User Interface
provide image observation condition within
Major Applications:
3 minutes after sample loading.
• Material Science (Metal/Ceramic Surfaces, Fiber Texture, Particle Distribution and Size
Optional EDX system and many other
Measurement, Failure Analysis)
tools can be adapted to Mini-SEM for your
• Semiconductor (Wafer, Bonding Wire, Micro-Pattern, CNT)
application.
• Life Science/Energy (Solar Cell, Battery Electrode, Catalyst)
SNE-4500M
Features:
• Pre-centered tungsten filament catridge
• Two-stage electromagnetic condenser stage & one
stage electromagnetic objective lens
• Automation function: Auto Start, Auto Focus, Auto
Stigmator, Auto Contrast & Brightness
• Image format: bmp, jpg, png, tiff
• Data display: Magnification, Detector Type,
Accelerating Voltage, Vacuum Mode, Date & Time,
Micron Marker
• Rotary Pump + Turbo Molecular Pump (Full
Automation System)
• Max photo frame: 2560x1920 px
SNE-4500M
SNE-3200M
SNE-3000MB
• Max 100,000x magnification
• SE Detector (Option: BSE Detector)
• 5 kV to 30 kV variable accelerating voltage
• Image observation ready within 3 min
• 5-axis strokes - X, Y, R, Z, T
• 4-Hole variable aperture (30/50/100/200
um)
• Options: EDX System, Cooling Stage, Low
Vacuum Control
• Max sample size: 80 mm dia. x 35 mm H
• Max 60,000x magnification
• SE Detector & BSE Detector (multi-mode)
• 5 kV to 30 kV variable accelerating
voltage
• Multi-vacuum mode: Standard/Charge
up reduction
• Image observation ready within 3 min
• 3-axis strokes - X, Y, R (Option: X, Y, T)
• Options: EDX System, Cooling Stage
• Max sample size: 70 mm dia. x 30 mm H
• Max 30,000x magnification
• BSE Detector (Solid state type: 4 channel)
• 5 kV to 30 kV variable accelerating
voltage
• Multi-vacuum mode: Standard/Charge
up reduction
• Image observation ready within 3 min
• 3-axis strokes - X, Y, R (Option: X, Y, T)
• Options: EDX System, Cooling Stage
• Max sample size: 70 mm dia. x 30 mm H
KGC RESOURCES
BERKELEY SCIENTIFIC
USA
BSG-1200X
BSO-1200G
Multi-position Mini Tube Furnace
Split-able Mini Tube Furnace
• Quartz tube, thermal blocks, silicone o-rings, and stainless steel vacuum sealing flanges are included for quick usage
• Max heating rate is up to 20°C/min
• Quartz tube can stand heat until 1200°C
• High purity alumina fiber insulation with heavy duty case
MUFFLE FURNACE
BSK-1200X
Model
Chamber
Dimension
LxWxH
BSK-1200X
4” x 4” x 4”
1L
Max: 20°C /min
Cont:
1100°C
Resistance Wire
BSK -1200X-SU
8” x 8” x 8”
8L
Max: 20°C /min
Cont:
1100 °C
Resistance Wire
BSK-1700X-S
4” x 4” x 4”
1L
Max: 20°C /min
Cont:
1650 °C
MoSi2 Rod
BSK -1700X -M
6” x 6” x 6”
3.5 L
Max: 20°C /min
Cont:
1650°C
MoSi2 Rod
8L
Max: 20°C /min
Cont:
1650 °C
MoSi2 Rod
BSK -1700X -LS 8” x 8” x 8”
Heating
Rate
Volume
Working
Temp
Heating
Element
ADVANCED MATERIAL SCIENCE
TUBE FURNACE
INDUCTION MELTING FURNACE
Model
BS-IMF-GP-15
BS-IMF-GP-25
BS-IMF-70
BS-IMF-110
Max Input Power
7 kW
25 kW
70 kW
110 kW
Iron/Steel/SS Capacity
1 kg
5 kg
25 kg
50 kg
Brass/Gold/Silver Capacity
2 kg
20 kg
100 kg
150 kg
Aluminum/Alloy Capacity
1 kg
5 kg
25 kg
50 kg
Features
BS-IMF-GP-15
• High power factor, and energy efficient
• Easier and more safe operation comparing with the traditional
oil/gas heaters
• Timing function applied for heating duration setting, adjustable
(0.1s-99.9s)
MICROWAVE MUFFLE FURNACE
BS-MMF-C1600
PRODUCTS CATALOG
Drying, binder burn-out,
synthesis and sintering of
powder and solid materials,
metals, and glass can be
completed in this system in a
3-4 hour period. It is designed
to increase the productivity of
solid state laboratories from
one set of samples to 3-4 sets
of samples per day.
Model
BS-MMF-C1600
Temperature Range
250°C-1600°C
Rating Power
4 kW
Microwave Output Power
0.2 - 1.4 kW variable
Microwave Frequency
2.45 GHz +/- 25 MHz
Sensor
IR Thermometer (USA Raytek)
Atmosphere System
Air
Max Loading Space
120 mm L x 120 mm W x 40 mm H
www.kgcresources.com | www.kgcscientific.com
43
BERKELEY SCIENTIFIC
USA
For more information on Berkeley Scientific, you may visit www.berkeleyxtl.com
HIGH PRESSURE TUBE FURNACE
Model
BS-HPTF-1200X
Max Working Temperature
1100°C
Working Pressure vs
Working Temperature
15 MPa - 800°C; 10 MPa - 900°C;
5 MPa - 1000°C; 2 MPa - 1100°C
Chamber Dimension
50 mm ID x 1000 mm L
Rated Power
Heating Element
Features
4.5 kW
Fe-Cr-Al doped by Mo
• Max pressure up to 800 psi depended on the alloy tube.
• Double layer steel casing with air cooling to keep furnace
surface temperature lower than 60°C.
• PID automatic control with 30 steps programmable.
BS-HPTF-1200X
MAGNESIUM ALLOY FURNACE
BS-MAF-100
Model
BS-MAF-100
Power
27 kW
ADVANCED MATERIAL SCIENCE
Crucible Capacity
Available capacity range from 10 kg
to 100 kg upon request
100 kg (80% nominal capacity)
Max Melting Temperature
850°C
Auto Air Supply Temperature
350°C
Max Flow Gas Mixture
10 lpm adjustable
Temperature Setting
PID programmable
Agitator Power
Agitator Rotational Speed
400 W
100 - 200 rpm
VACUUM MUFFLE FURNACE
Model
BS-HTVF-1700-12IC
Max Working Temperature
1600°C
Temperature Accuracy
+/-1°C
Max Heating Rate
Chamber Dimension
HIGH
TEMPERATURE
UP TO 1700°C
Max Vacuum Level
Heating Element
Features
10°C/min
200 x 200 x 300 mm
7x10 Pa with rotary vane pump
7x10-3 Pa with roots pump system
MoSi2
• Heavy duty double layer structure with cooling air
system
• PID automatic control via current limiting phase angle
fired the resistor, SCR (Silicon Controlled Rectifier)
• Power control with 30 segments programmable
BS-HTVF-1700-12IC
ACRYLIC GLOVE BOX
BS-GB-APC
Benchtop Transparent Glove Box with Pressure Control System
• Transparent polycarbonate main chamber casing with dimensions: 875(L)x480(W)x500(H) mm up
to 675 Torr vacuum level
• Air-lock chamber with dimensions: 230(L)x220(W)x230(H) mm up to 100 Torr vacuum level
• One mechanical vacuum gauge and two solenoid valves are installed for pressure control
• Two needle valves for main chamber and air-lock chamber are installed for immediate use
• One pair of Latex Gloves are included for immediate use
44
KGC RESOURCES
BERKELEY SCIENTIFIC
USA
VACUUM PUMP
BS-AP-1400V
BS-AP-1400V
BS-TW-5-KF25
BS-2TW-4-KF25
Flow Rate
120 lpm
170 lpm
283 lpm
Ultimate Vacuum
-92 kPa
2 Pa
2x10-1 Pa
Stage
-
1
2
Power
<450 W
3/4 HP
1 HP
Oil Capacity
(Oilless: Piston type)
280 ml
600 ml
Dimension
244x125x181 mm
320x125x232 mm
390x145x252 mm
VACUUM OVEN
Model
BS-DZF-6020
BS-VO-6020
BS-VO-6050
Door Type
BS-VO-6050D
Glass
Max Working
Temperature
Solid
Ambient - 250°C
Capacity
25 Liter
53 Liter
Chamber
Dimension
12” x 12” x 11”
16.3” x 13.5” x 14.5”
Features
ADVANCED MATERIAL SCIENCE
Model
BS-2TW-4-KF25
• The chamber is designed with stainless steel and welded with bracing pieces
• A good vacuum seal is achieved by silicone door gasket and positive latch door
• Vacuum port are installed to create vacuum environment in the chamber
PLANETARY BALL MILL
Model
Working Principle
Compatible Grinding Jars
BS-PBM-2L
Operation Mode
Feeding Granularity
Sample Type
BS-PBM-2L
Impact & Friction Force
500 ml x 4
2 or 4 grinding jars working simultaneously
Soil materials < 10 mm, others < 3 mm
Hard, medium-hard, soft, fibrous, brittle, moist
Rotational Speed
800 with 1: -2 ratio
Max Working Time
72 hours (full-load)
HYDRAULIC PRESS
Model
Max Pressure
Pump
Built-in hydraulic pump
Travel Distance
25 mm
Top Support Adjustable Height
150 mm
Working Space
Protection Shield
PRODUCTS CATALOG
BS-HP-24T
24 Metric Tons
D1: 100 mm; D2: 43 mm; D3: 105 mm; H1: 150 mm; H2: 140 mm
10 mm thick transparent acrylic shield
Press Dies
Available with various diameters
Dimension:
292 L x 279 W x 546 H mm
www.kgcresources.com | www.kgcscientific.com
45
BERKELEY SCIENTIFIC
USA
For more information on Berkeley Scientific, you may visit www.berkeleyxtl.com
STANDARD GLOVE BOX SYSTEM
ADVANCED MATERIAL SCIENCE
BS-GB-1220MO
46
BS-GB-2440MO
Widely applied in lithium-ion battery, physical chemistry, powder metallurgy, nuclear technology, special welding, OLED and PLED, catalyst,
pharmaceutical, material handling, special lamp, fine chemical, metal organic, polymer materials etc.
Various types available from single workstation for R & D, to multiple workstations for large-scale production, and even customized
glove boxes on request; integrated with various accessories on request including solvent absorber, refgirator, heating furnace, microscope
unit, low temperature bath, solvent purification system, de-dusting system, pressure boosting system & vacuum furnace etc. ZrO2 oxygen
solid sensor, long life, to be exposed in the air without any consumption. P205 moisture sensor, corrosion ressistance,renewable by acid
cleaning, especially applicable for corrosive environment like lithium battery and metal organic to avoid discarding once contiminated.
Model
Module Dimension
BS-GB-1220M
BS-GB-1220MO
BS-GB-2440MO
LxWxH 1220 x 750 x900 mm
LxWxH 1220 x 750 x900 mm
LxWxH 2440*750*900 mm
Analyzer
Moisture Analyzer only
Moisture & Oxygen Analyzer
Workstation
Single-sided box with 2 gloves
on one side
Single-sided box with 2 gloves on one Single-sided box with 4 gloves on
side
one side
Glove Box Body for
Single Module Box
• Various pipes made of stainless steel polished
• Body material, Stainless Steel 1.4301 (US Type 304) , acid resistant, 3mm thickness
• Windows, Sight safety glass
• Glove ports material: POM materials
• Shelves, Stainless, 2 layers, mounted inside
• External Fluorescent lights, 1 set
• 1 electrical feedthrough, 3 or more blind-flanges, KF 40
• 7” or 8” cuff dia. 0.015” thick
Gas Purification
System
• Airtight Seal, Removable of H2O and O2
• Container material: SS304
• Absorber unit: Copper catalyst: 4.5 kg
• Molecular sieve: 4.5 kg
• Attainable purity: H2O <1ppm, O2 <1ppm
• Circulation blower: 90m3/h, with frequency converter
• Regeneration, PLC automatic control all process including heating, filling mix gas (working gas / 5-10%H2
mixture), etc
Main Antechamber
• 1 big cylindrical type antechamber, made of Stainless Steel 1.4301 (US Type 304)
• Dia.360mm, length =600mm, right or left side
• With sliding tray inside the antechamber
• Spindle lock door, vertical operation with lifting mechanism
• Touch screen automatic operation via solenoid
Vacuum Pump
• 1 Rotary vane pump, with oil mist filter, and gas ballast control;Capacity: 8m3/h or 12m3/h, dual stage
Valves
• Main valves: Electro-pneumatic angle valves DN40 KF
• Control valves: Integrated solenoid (Brass)
Mini Antechamber
• 1 Mini Cylindrical type chamber, make of Stainless Steel 304; Dia. 150mm, length=300mm (100 mm access
into the glove box ),right or left side; Screw-lock door
• Manual operation via hand valve.
KGC RESOURCES
Moisture & Oxygen Analyzer
BERKELEY SCIENTIFIC
Gantry CNC machining center
CNC turning center
Production process under strict ISO9001 QC control
covering incoming inspection, process inspection,
finished product inspection and actual running to reach
less than 1 ppm moisture and oxygen before delivery
which ensures the product quality. With advanced and
perfect production equipment including Gantry machining
center, CNC turning center, ABB welding robot, Helium
mass spectrum leakage detector, CNC bending machine
which guarantee high processing capacity.
CNC bending machine
Helium mass spectrum
leak detector
ADVANCED MATERIAL SCIENCE
Glove Box Dimension
USA
ABB welding robot
Glove box customization in the factory
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
47
BERKELEY SCIENTIFIC
USA
For more information on Berkeley Scientific, you may visit www.berkeleyxtl.com
GLOVE BOX OPTIONAL UNIT
ADVANCED MATERIAL SCIENCE
Microscope Unit
• To be integrated inside glove box
• Color CCD
• Continuous adjustable
magnification factor
• Philips monitor, liquid crystal
transfer box
Vacuum Rectangular Antechamber
• Vacuum to 100 Pa
• Double door to be operated
electrically or pneumatically
• Customized sizes available
Solvent Purification System
Vacuum Furnace
• Applicable for solvent drying and purification by removing • Vertical or horizontal type
water, oxygen, etc. Low purity grade industrial solvents can • Max temperature:
be purified into high purity grade
1200°C/2200°C
• Ultimate pressure: 1x10-4Pa/5x106
Pa
• Ultimate vacuum: to be
customized on request
• Program-controlled temperaturerising and evacuating
• Cooling system failure protection
Cold Well
• Provide working environment from ambient
temperature to -100°C for physics and
chemistry research, chemosythesis
experiment
• Refrigeration: Liquid Nitrogen/ Compressor
• Tank dimension: 525 x 335 x 400 mm
• With refrigerant insulator to reduce next
refrigeration time
• Limit temperature: -120°C
48
Refrigerator
• Left-mounted, door
inside of the box
• Inner dimension: 250
L x 200 W x 400 H
mm
• Lowest temperature:
-40°C (-55°C
available)
KGC RESOURCES
Rectangular Chamber
• Customized sizes available
• The double door to be
operated pneumatically or
manually
De-dusting Unit
• With two filter, switchable
• Stainless steel shell
• Filter accuracy: 3 mm
• High performance circulation unit
• Main pipe: Stainless steel DN40
Heating Chamber
• Temperature range:
Ambient temperature to
120°C
• OMRON temperature
controller
• Antechamber is
insulated for thermal
protection
BERKELEY SCIENTIFIC
USA
CUSTOMIZED GLOVE BOX SYSTEM
Nuclear Glove Box
ADVANCED MATERIAL SCIENCE
Welding Glove Box
Li-Batteries Glove Box
Super Capacitor Production Line for
Glove Box
LED/HID Glove Box
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
49
REB RESEARCH
USA
HYDROGEN GENERATOR
ANALYTICAL RESEARCH
ME100 SERIES
The ME100 Hydrogen Generator provides ultrapure hydrogen H2 for laboratory fuel cell tests, gas chromatography, braze furnaces and
electronic chip production. Safer and cheaper than bottled gas; less work too.The Me100 generates hydrogen by reforming methanol and
water in a membrane reactor, a reactor that purifies the hydrogen through a desne metal membrane as it is generated by methanol reforming.
A pump compresses the methanol-water mixture and sends it through the boiler and into the membrane reactor. The membrane reactor
extracts pure hydrogen as it is produced, saving energy and enhancing the extent of reaction. The hydrogen produced is free of water vapor
unlike electrolysis hydrogen. Waste gases are mostly CO2; waste liquid can be recycled (this is done automatically in the Me100-2). Since the
hydrogen is ultra pure, it can be used for braze furnaces, gas chromatographs, electronic production, or to feed PEM fuel cells in dead-end mode.
MODEL
DESCRIPTION
ME100
Converts methanol-water to 99.99995% pure hydrogen at user-selected, constant pressures up to 90 psig. Safer, purer,
cheaper than bottled gas operation. Maximum output varries with pressure: stated output at 1 psig, half this output at 50
psig. Use ordinary distilled water and methanol. Never needs filter replacement. 13” x 13” x 17”; 15 lbs.
ME100-2
Make up to 12.5 slpm of 99.99995% pure hydrogen from a 1:1 mix of methanol and water. Safer, purer, and cheaper than
bottled gas.Hydrogen delivery to 70 psi. Adjust the H2 pressure and flow rate by varying the load or methanol-water input.
16” x 17.5” x 21”; 25 lbs.
ME150
Make up to 75 slpm of 99.99995% pure hydrogen (9.6 kg/day) from a 1:1 mix of methanol and water. Safer, purer, and
cheaper than bottled gas. Hydrogen delivery to 70 psi. Constant pressure delivers maximum output varies with H2 pressure.
58” x 16” x 38”; 300 lbs.
METAL MEMBRANE
Tantalum Membrane Tantalum-based hydrogen permeation membranes 3/8” OD x .007” wall coated with 1.5/u Pd 4” or 6” studded length
Niobium Membrane
Niobium-based hydrogen permeation membranes 3/8” x .007” wall coated with 1.6/u Pd 4” or 6” studded length
Pd-Ag Membrane
Pd-Ag membranes 1/8” OD x .003” wall: plain, coated with Pd, or coated with Pd-Cu
72 Tube Bundle
Tube bundle containing 72 Pd-Ag membranes 1/8” OD x .003” wall x 18” tall. Sold brazed into a tubesheet with spacers
to hold the membranes and promote proper gas flow. For operation at pressures up to 400 psi and temperatures up
to 450°C
High Pressure
Metallic Membrane
Used to extract hydrogen from the steam system of nuclear reactors. Operates at room temperature to 500°C; pressures
up to 1500 psi; 1/8” diameter x 60 mm long; Extracts about 5 cc/hr during normal operation. Reduces the risk of overpressure and hydrogen explosive events
Low Temperature
Metallic Membrane
Low temperature metallic membranes for extracting hydrogen from other gases at room temperature, eg. to remove
hydrogen from the water output of a fuel cell on the Space Shuttle
METHANOL WATER REFORMER
Produces up to 50 slpm of methanol-water reformate, about 65% H2, for use in high temperature fuel cells, hydrogen generators, and membrane
test equipment
Hydrogen purifiers and purifier cells are also available to purify commercial cylinder hydrogen up to 99.999995% with operation from 100 500°C and up to 220 psi pressure; reforming and water gas shift catalysts in mixed 20 to 100 mesh sizes for membrane reactor use. Also,
hydrogen sorbers for use in electronics and in metal hydride batteries, nano-particle colloids of Pd, Au, Cu, and Ni; membrane reactors to
exceeds the reaction limits of closed system reactor thermodynamics at any given reactor temperature and pressure in order to generate
and extract ultra-pure hydrogen from methanol, ammonia or hydrocarbons.
50
KGC RESOURCES
GOLD APP INSTRUMENTS
CHINA
F-SORB 1400CE
F-SORB 2400CE
V-SORB 2800S
V-SORB 4800S
V-SORB 2800S
V-SORB 4800S
GOLD APP INSTRUMENTS self-developed surface area and porosity analyzer utilizes static volumetric. Compared with other companies’
analyzers, multi pioneered techs make instrument’s performance much better, heighten accuracy and consistence of results, enhance
measurement stability, all these lead to a leading level in domestic competitors and partial applications surpass foreign instruments. Products
designed from the user perspective and equipped with fully automated operation, user-friendly interface makes it easy to learn, imported
accessories assure stability and prolong life. Perfect design, sophisticated production and strict testing guarantee to meet customers’ real
demands.
Model
F-SORB 1400CE
F-SORB 2400CE
Analysis Method
Contrast reference
method by dynamic
nitrogen adsorption
Measuring
Range
0.01 m2/g to no known upper limit (specific
surface area)
Accuracy
≤2%
Single and multi-point
BET surface area
≤1%
Static volumetric nitrogen adsorption
0.01 m2/g to no known upper limit (specific surface area) and
0.35-2nm (micropore); 2-400nm (mesopore and macropore)
≤1.5%
≤1.5%
Sample Type
Powders, particle, fiber, flakes and other materials
Adsorbate
Mixed He+N2 (4:1)
with high purity
Pressure
Normal pressure
Data Acquisition
High-precision and high integration data acquisition modules, minimal error, strong anti-interference ability
Data Reduction
Windows®-base independent developed Gold APP softwareTM, perfect versatility, produced full featured and
multi-model reports
ANALYTICAL RESEARCH
SURFACE AREA ANALYZER
Helium (99.99%)
High purity nitrogen (≥99.999%), Ar, Kr etc. optional
as carrier, Nitrogen
(99.99%) as adsorbate
A. Structure Design
4x10-2Pa (3x10-4Torr)
A. Structure Design
Stainless manifold system obviously improves 1. Unique integral manifolds system, decrease connecting points
sealing performance, eliminates errors caused by
apparently, reduce leak rate, improve ultimate vacuum.
gas molecules permeation, no ageing for manifolds, 2. Modularity design can configure as customer requests, benefits future
functions extension and instrument maintenance.
increase reliability and prolong life.
3.
Germany imported bipolar vacuum pump, low noise, stable working,
B. Control System
oil-return prevention; ultimate vacuum can reach 4x10-2Pa (3x10Integrated multifunctional control system; motor
4Torr).
screw rod lifting system ensures Dewar stability.
Features
Application
PRODUCTS CATALOG
C. Data Acquisition and Reduction
B. Control System
D. Analysis Optimize
Multi analysis methods, no need to convert
operations frequently, all set in dedicated
software. Pioneered gas amount auto-adjust
system brings extremely accurate, stable
and no user intervention analysis.
C. Measures for Improving Accuracy
High precision data acquisition and signal 1. Industry used programmable controller electromagnetically operated
valve system, strong anti-interference ability, convenient for installation
amplification, high integration A/D transformation
and uninstallation.
system, strong anti-interference ability and high
2.
Separated
analysis and treatment manifolds can prevent foreign matter
real time, can reduce environmental influence on
to contaminate manifolds in sample treatment.
analysis procedures.
1. Imported silicon thin film capacitive pressure transmitter, accuracy can
reach 0.15% of real reading, better than 0.15% of F.S. (full-scale).
2. 0-10 Torr (optional) and 0-1000 Torr dual pressure transmitters,
sectional measurement in pressure range can reduce errors in low
vacuum, 0-10Torr silicon thin film transmitter is highly accurate than
Pirani resistance vacuum gauge.
1. Super micro powder, nanomaterials, particle and fiber shaped specific surface area analysis.
2. Product quality control for powder materials related corporations.
3. Research institutes, universities for BET theory teaching.
4. Fuel cells, catalysts, additives, adsorbent, ceramics, magnetic materials, energy storage materials etc.
www.kgcresources.com | www.kgcscientific.com
51
TOC SYSTEMS
USA
TOC ANALYZER
Sample is mixed with acid, lowering the pH to 2.0. This converts the inorganic carbon
to dissolved CO2, which is Air/O2 stripped out of the solution. Reagent is added if
required and the remaining organic carbon is then oxidized in the Reactor to form
CO2, which is detected by the NDIR as an interference-free direct correlation to TOC.
This multi-method analyzer can be used in Power Generation, Boiler Feed, Condensate,
Cooling Towers, Drinking Water, Ultra-pure Water, Waste Water, Pharmaceutical,
Process Water, and Sea Water.
Model
Automatic Multi-Method Benchtop TOC Analyzer
Analysis Methods
All methods in single Analyzer: UV/Heated Persulfate, High Temperature Combustion, Ozone Promoted/
Hydroxyl Radical, Heated Persulfate, Ultra-Pure (UV - NDIR)
Analytes Measured
Total Organic Carbon; Total Carbon; Total Inorganic Carbon; Non-Purgeable Organic Carbon; TOC-True
(including purgeable Organics)
Sample Handling
Digital injection/Auto-sampler
Measurement Range
0.1 - 50,000 mg/l
Accuracy/Repeatability
≤5% RSD or ≤2% FS
ANALYTICAL RESEARCH
Carrier Gas Flow
300 ml/min
Carrier Gas Type
CO2 & HC - free air, or O2 (300 ml/minute-max.); 15 +/- 2 PSI
Reagents
Prepacked Sodium Persulfate; Phosphoric Acid; Calibration Standards; D.I. water
Sample Drain
Gravity/Air break
Working Temperature
10°C to 50°C
StarTOC Solids/Liquid Analyzer provides a platform, which may be configured for a variety of
applications, combustion temperatures, catalyst/non-catalyst choices and different Regulatory and
Standard Methods. It is an ideal tool to support current development programs, as well as providing
capability for any future mandated requirements.
The hardware provides the operator with a high degree of flexibility to improvise the configuration
parameters, such as temperatures, reactor catalyst choices or a non-catalytic reaction. The following
two (2) methods are currently preferred.
• TOC Direct Mode
• TOC Differential Mode
Model
TOC SOLIDS Analyzer
Analysis Methods
High Temperature Combustion and Non-Dispersive Infrared (NDIR) CO2 Detection
Analytes Measured
Total Organic Carbon; Total Carbon; Total Inorganic Carbon; in Solids, Slurries, Sludge and Liquids
Sample Handling
Manually position sample on Injector for Automatic sample injection into reactor
Measurement Range
0.1 mg - to % Levels
Accuracy/Repeatability
≤2% FS
Carrier Gas Flow
52
300 ml/min
Carrier Gas Type
CO2 & HC - free air, or O2 (300 ml/minute-max.); 15 +/- 2 PSI
Reactors
Dual catalytic or non-catalytic reactors
Reagents
Hydrocloric Acid; Phosphoric Acid; Calibration Standards; D.I. water
Sample Drain
Gravity/Air break
Sample Mass
5g
KGC RESOURCES
TOC SYSTEMS
USA
Sample is mixed with acid, lowering the pH to 2.0. This converts the inorganic carbon to
dissolved CO2, which is Air/O2 stripped out of the solution. Reagent is added if required
and the remaining organic carbon is then oxidized in the Reactor to form CO2, which is
detected by the NDIR as a direct correlation to TOC.
Model
Semi-Automatic Benchtop TOC Analyzer
Analysis Methods
Semi-Automatic Benchtop TOC/Non-Dispersive Infrared (NDIR) CO2 Detection
Analytes Measured
Total Organic Carbon; Total Carbon; Total Inorganic Carbon; Non-Purgeable Organic Carbon
Sample Handling
Manual Injection Sparger. Manual Syringe Injection into UV/Persulfate Reactor and High Temperature
Combustion Reactor (option)
Measurement Range
0-10 thru 0-1000 mg/l
Accuracy/Repeatability
≤3%
Carrier Gas Flow
300 ml/min
Carrier Gas Type
CO2 & HC - free air, or O2 (300 ml/minute-max.); 15 +/- 2 PSI
Reagents
Prepacked Sodium Persulfate; Phosphoric Acid; Calibration Standards; D.I. water
Sample Drain
ANALYTICAL RESEARCH
TOC Systems’ Semi-Automatic Benchtop is a low-cost, accurate TOC analyzer which
utilizes components and software from TOC Systems’ family of computer-controlled
automated TOCs. Since operation and maintenance are very simple, this model may be
the analyzer of choice when less than 20 samples per day are to be analyzed.
Gravity/Air break
StarTOC UV/HEATED PERSULFATE oxidation method offers solutions for a wide variety of applications. The analyzer
is completely automatic, with an integral Microsoft* Windows-CE computer & Touch Screen Display. It eliminates
troublesome & expensive factory reprogramming required by alternate microprocessors, when applications change.
StarTOC allows easy Operator adjustments from the front panel and many more features, only provided by an integral,
dedicated computer.
Model
UV/Heated Persulfate TOC
Analyzer
Analysis Methods
UV Heated Persulfate/Non- Ultra-Pure/ Non-Dispersive Ozone/Hydroxyl Radical/
Ozone/Hydroxyl Radical
(NDIR)
CO2 Non-Dispersive Infrared
Dispersive Infrared (NDIR) Infrared
+ UV/Heated Persulfate
Detection
(NDIR) CO2 Detection
CO2 Detection
Analytes Measured
Total Organic Carbon; Total Carbon; Total Inorganic Carbon; Non-Purgeable Organic Carbon; TOC-True (including
purgeable Organics)
Sample Handling
Continuous Pumps or Digital
Injection (Pumpless)
Measurement Range
0-10 thru 0-1000 mg/l (w/o
dilution)
0-25,000 mg/l (with
automatic on-board dilution)
Accuracy/
Repeatability
≤2%
Ultra-Pure TOC Analyzer
Ozone/Hydroxyl
Radical TOC Analyzer
Dual Method TOC
Analyzer
Continuous Pump or
Digital Injection
Digital Injection
0.100 to 10.0 mg/l
0 to 25,000 mg/l
≤3%
≤2%
Carrier Gas Type
CO2 & HC - free air, or O2 (300 ml/minute-max.); 15 +/- 2 PSI
Reagents
Prepackaged Sodium Persulfate
Phosphoric Acid
Prepacked Sodium Persulfate;
Sodium Hydroxide
Calibration Standards
Phosphoric Acid; Calibration
Phosphoric Acid D.I. Water
Standards; D.I. water
Calibration Standards
Sodium Persulfate (option)
D.I. Water
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
53
IMR
USA
FLUE GAS ANALYZER
OIL & GAS INSTRUMENTATION
IMR1400 SERIES
IMR1400 series features:
• Portable & very compact combustion gas analyzer housed in a rugged aluminum case
• Calculation of following parameters according to ASME-equations: Combustion Efficiency, Losses,
& Excess Air
• 7 Fuels are programmed - 5 fuels are programmable
• Automatic zero calibration
• Integrated self-check program
• Simultaneously display of eight parameters on the illuminated display
• Unit selection: ppm - mg - mg(ref O2) - mg/kWh
• Gas sampling probe, rechargeable battery with charger are included
• NO2, SO2, HC/CH4 gas measurement are optional and upon request
54
IMR2800 series features:
• Portable combustion gas analyzer housed in a rugged aluminum case
• Calculation of following parameters according to ASME-equations: NOx, CO2, Combustion
Efficiency, Losses, & Excess Air
• 23 Fuels are programmed - 4 fuels are programmable
• Automatic zero calibration
• Integrated self-check program
• Simultaneously display of parameters on the illuminated display
• Printer with programmable print out cycles
• Standard deviation & average value calculation
• Unit selection: ppm - mg - mg/Nm3 - mg/Nm3(ref O2)
• Gas sampling probe, rechargeable battery with charger are included
IMR2800 SERIES
Model
Features
IMR1400-COMPACT
• Measurement of: O2 (0-20.9%), CO (0-2000/4000 ppm), TG (0°C -1200°C), TA (O°C-120°C)
• Measurement of CO2 is based on ASME-equations
• Gas sampling probe E - length 0.8 ft, hose 8 ft
• Optional SO2 sensor measurement or NO2 measurement upon request
IMR1400-IR
• Measurement of: O2 (0-20.9%), CO2 (0-30%), CO (0-2000/4000 ppm), TG (0°C -1200°C), TA (O°C-120°C)
• CO-bypass valve with purging pump
• 12V DC power jack, thermal printer, RS232 interface, electronic controlled soot measurement
• Gas sampling probe S with heated handle - length 0.9 ft, hose 11.5 ft
IMR1400P/PL/PS
• Measurement of: O2 (0-20.9%), CO2 (0-30%), CO (0-2000 ppm), NO (0-2000 ppm), NO2 (0-100 ppm), SO2
(0-4000 ppm), HC (0-100% LEL), H2S (0-200 ppm), TG (0°C -1200°C), TA (O°C-120°C)
• Automatic & manual CO overflow shut-off, electronic controlled soot measurement
• Interface RS232, thermal printer, battery status is shown on the display
• Gas sampling probe S with heated handle - length 0.9 ft, hose 11.5 ft
• P: default, PL: 3 sensors max, PS: 4 sensors max
IMR1400CO
• Two CO-sensors are installed, one for low CO-measurements and one for high measurements
• Measurement of: O2 (0-20.9%), CO (0-4%), NO (0-2000 ppm: optional), SO2 (0-4000 ppm: optional), TG (0°C
-1200°C), TA (O°C-120°C)
• Measurement of CO2 is based on ASME-equations
• Thermal printer, RS232 interface, 12V DC power jack, electronic controlled soot measurement
• Gas sampling probe thermocouple type K with heated handle - 3.5 ft hose
IMR2800P
• Measurement of: O2 (0-20.9%), CO (0-2000/4000 ppm), NO (0-2000 ppm), NO2 (0-100 ppm), SO2 (0-4000
ppm), TG (0°C -1200°C), TA (O°C-120°C)
• Measurement of CO2 & NOx are based on ASME-equations
• Gas sampling probe E - length 0.8 ft, hose 8 ft
IMR2800-IR/A
• Measurement of: O2 (0-20.9%), CO (0-10/20%), CO2 (0-20%), HC/CH4 (0-100%LEL), NO (0-2000 ppm), SO2
(0-4000 ppm), TG (0°C -1200°C), TA (O°C-120°C)
• Measurement of CO2 & NOx are based on ASME-equations
• Gas sampling probe E - length 0.8 ft, hose 8 ft
KGC RESOURCES
IMR
USA
IMR EX610
Main function & features:
• SMART sensor module, easy for replacement and
maintenance
• Intrisically safe design
• LCD screen wide view
IMR EX660
• High/Low alarm adjustable
• Calibrating level adjustable for each calibration
• Combustible gas channel with high-concentration
protection function
• Data uploading to PC available
• Audible, visual, and vibration alarm method
IMR EX610
IMR EX660
Single Cell Portable Ambient Gas Detector
1-6 Cell Portable Ambient Gas Detector
• Target gas: combustible gas, toxic gas, oxygen, VOC
• Detection method: Natural diffusion
• Response time:
Semiconductor, Catalytic, Internal Conduct Sensor t90 < 30 s
Oxygen, Carbon Monoxide, Hydrogen Sulfide t90 < 30 s
Other Sensors t90 < 120 s
• Operating temperature: -20°C - 50°C
• Working humidity: ≤95%RH
• Power source: Lithium battery (DC3, 6V, 6600mA)
• Charging time: 4 - 6 hours
• ≥ 8 hours continuous working time for combustible & toxic gas
• ≥ 30 hours continuous working time for toxic gas under
temperature of 20°C
• Explosion-proof grade: Exial IIC T4 Ga
• Ingress protection: IP66
• Target gas: combustible gas, toxic gas, oxygen, VOC
• Response time:
Semiconductor, Catalytic, Thermal Conductivity t90 < 30 s
Oxygen, Carbon Monoxide, Hydrogen Sulfide t90 < 30 s
• Alarm method: Audible, visual, & vibration alarm
• Operating temperature: -40°C - 70°C
• Working humidity: ≤95%RH no condensation
• Power source: Lithium battery (DC3, 6V, 6600mA)
• Charging time: 4 - 6 hours
• ≥ 30 hours continuous working time for combustible & toxic gas
• ≥ 300 hours continuous working time for toxic gas under
temperature of 20°C
• Ingress protection: IP65
OIL & GAS INSTRUMENTATION
AMBIENT GAS DETECTOR
IMR ENVIRONMENTAL EQUIPMENT, Inc. is one of the leading manufacturers worldwide for portable and stationary flue-gas analyzers. IMR
emission analyzers have earned the respect of industry as the most reliable analyzers on the market. It is designed to be rugged and accurate
at the same time. IMR manufactures single-cell handheld flue gas analyzers as well as up to 12 channels of continuous emission monitoring
systems by making use of the latest sensor technology (NDIR, electro-chemical sensors) to measure the flue gas concentration.
HANDHELD GAS ANALYZER
Model
PRODUCTS CATALOG
IMR1000 SERIES
IMR1050X SERIES
The IMR1000 is a hand held pocket size stack gas
analyzer for combustion tests on boilers, burners,
etc. The IMR1000-1/-2 have up to two sensors
with a 2-line LCD while the IMR1000-3/-4 have a
4-line LCD and come with up to 3 sensors.
• Measures O2 (0-21%), CO (0-1000 ppm: for
IMR1000-2, 0-4000 ppm: for IMR1000-3/4),
CO2 (0-30%), NO (0-30 ppm: IMR1000-4 only)
• Measuring units for the analyzer are ppm and
mg/m3
• Integrated filter is provided for condensation
trap
• The analyzer operating condition is within 0 40°C, 10 - 90% RH, non-condensing
• Thermocouple Type K as gas sampling probe
with (0.25” diameter, 9” length with 9 ft hose
length)
• Battery operated (4 x AA)
• Dimensions of 200 x 45 x 90 mm
The IMR1050X is a handheld combustion system
analyzer that takes direct CO2 measurements
and calculates the O2 level. This lowers the cost
of ownership by doing away with the annual
replacements of the O2 sensor and reducing
calibration drifting typically found with standard
electro-chemical sensors.
• Measures differential flue temperature, CO2
(0-20%), flue & ambient CO (0-2000 ppm) &
differential pressure
• Calculates O2 (0-21%), gross/net efficiency,
excess air & CO air free
• Measures NO (0-100 ppm: for IMR1050X-NO)
• CO readings to 1 ppm
• 4 lines backlit LCD display
• 179 memories positions
• User customizable parameters view
• Battery operated (4 x AA)
• Dimensions of 200 x 45 x 90 mm
www.kgcresources.com | www.kgcscientific.com
55
IMR
USA
CONTINUOUS FLUE GAS MONITORING SYSTEM
Applications:
• Boiler/Burners
• Turbines
• Engines
• Incinerators
• Process Control
• Landfills
• Cogeneration Plants
OIL & GAS INSTRUMENTATION
• The IMR 5000 is the state-of-the-art continuous flue gas monitoring system, and it is designed for a
wide variety of the flue gas monitoring applications.
• The IMR 5000 is a stand alone analyzer that works automatically. The rugged wall mounted enclosure
meets NEMA type 4X (IP65) standards.
• The modular approach of the IMR 5000 allows one or more gasses (up to 12 gases) to be measured
simultaneously
• The IMR 5000 uses the latest sensor technology from electro-chemical sensors up to NDIR benches.
• The IMR 5000 can be built to customer specifications.
• Analog 4 - 20 mA or 0 - 20 mA, RS232, Ethernet, RS485 are supported by IMR 5000
Function Process
IMR 5000
The internal gas conditioning unit (peltier cooler or permeation dryer) dries and conditions the gass.
The conditioned flue gas is then analyzed by individual sensors (NDIR or Electrochemical). Processing
unit inside the IMR 5000 process this information and displays it on its 5.7” screen and relays the
information to a monitoring computer provided by customer.
Gas Dryer
• Permeation Dryer
• Heated Hose 1.5 m (Thermostat set for 140°C)
• Filter System, Stainless Steel Housing
• Gas Probe 750 mm
• Flange 100 mm (4”)
• Gas Pump
• IP or Nema rating enclosures (varies according
tospecification)
Aspects
• 6.4” Color TFT LCD with 640x480 px
• User configurable I/O
• Expandable modular architecture
• Flexible screen configuration
• Soft keys coupled with interactive dialog
• Simplified setup & operation procedures
• Easy to access function keys
• Fast sampling rate (200 msec for all channels
• Programmable alarm & messages
GAS RANGE OPTIONS
CO
O2
Range: 0 - 50,000
Range: 0 - 21%
ppm
Resolution: 0.1%
Resolution: 10 ppm
SO2
Range: 0 - 2,000
ppm
Resolution: 1 ppm
CH4 NDIR
Range: 0 100%LEL
Resolution: 0.1%
NO
Range: 0 - 2,000
ppm
Resolution: 1 ppm
H2S
Range: 0 - 200
ppm
Resolution: 0.1
ppm
TEMP
Range: 0 - 1200°C
Resolution: 1°c
PARTICLE SYSTEM
Range: 0 999,999 ppm
Resolution: 1 ppm
NO2
Range: 0 - 2,000
ppm
Resolution: 1 ppm
HCl
Range: 0 - 100
ppm
Resolution: 0.1
ppm
HF
Range: 0 - 100
ppm
Resolution: 0.1
ppm
NH3
Range: 0 - 100
ppm
Resolution: 0.1
ppm
HC
Range: 0 100%LEL
Resolution: 0.1%
CL2
Range: 0 - 100
ppm
Resolution: 0.1
ppm
O3
Range: 0 - 100
ppm
Resolution: 0.1
ppm
N2O
Range: 0 - 1,000
ppm
Resolution: 1 ppm
ACCURACY
Measurement Range = 100%
0 - 20% = +/-5% of measurement range
20 - 100% = +/-1% of measurement range
CALCULATED PARAMETERS
IMR 5000 Interface
56
KGC RESOURCES
CO2
Range: 0 - 25%
Efficiency (ETA)
Range: 0 - 100%
Excess Air
Range: 0 - 100%
Losses
Range: 0 - 100%
GASTECH
AUSTRALIA
SINGLE GAS DETECTOR
RI-415
Toxi Pro
FC-21
GasAlert Clips
ToxiRAE Pro CO2
O2 Portable
SC-8000
O2 Portable
The O2 Portable is an accurate, fast response portable oxygen analyzer. It is designed to withstand harsh
environments and is both water resistant to IP65/NEMA4 and drop resistant. The O2 sensor is mounted internally for
protection and to eliminate inaccuracies associated with sensor handling. Highly accurate reading at concentrations
up to 100% O2.
ToxiRAE Pro
CO2
The ToxiRAE Pro CO2 is the world’s first wireless personal carbon dioxide monitor. It provides safety professionals
with wireless remote access to real-time instrument readings and alarm status for better visibility and faster incident
response. The ToxiRAE Pro offers datalogging capability and is equipped with a “Man Down” alarm and policy
enforcement to ensure greater safety while making sure compliance-related procedures such as periodic testing and
calibration are performed.
ToxiRAE Pro
LEL
The ToxiRAE Pro LEL is the world’s first personal wireless combustible gas monitor. The ToxiRAE Pro LEL provides
safety professionals with wireless remote access to real-time instrument readings and alarm status for better
visibility and faster incident response. The ToxiRAE Pro LEL quickly detects and accurately monitors combustibles in
concentrations from 0 to 100% of the lower explosive limit (LEL). With the most extensive onboard gas library in its
class, the ToxiRAE Pro LEL can be programmed to automatically read in %LEL of the specified compound.
ToxiRAE Pro
PID
The ToxiRAE Pro PID is the world’s smallest volatile organic compound (VOC) monitor. Featuring RAE Systems’ nextgeneration PID sensor, the ToxiRAE Pro PID can quickly detect and accurately monitor over 300 VOCs. The ToxiRAE
Pro PID provides safety professionals wireless remote access to real-time instrument readings and alarm status for
better visibility and faster incident response. With an onboard library of 190 correction factors, the ToxiRAE Pro PID
can be programmed to automatically read in equivalent units of the specified compound.
ToxiRAE Pro
The ToxiRAE Pro can detect a broad range of gases - from carbon monoxide, hydrogen sulfide, and oxygen to
ammonia, chlorine, and formaldehyde. The ToxiRAE Pro provides safety professionals wireless remote access to
real-time instrument readings and alarm status for better visibility and faster incident response. The ToxiRAE Pro’s
intelligent interchangeable sensors store calibration data, which allows users to monitor for one gas one day and
another gas the next, by simply swapping the sensors as required.
Toxi Pro
ToxiPro has three visual alarm windows for increased worker safety. Each alarm window comes standard with both
high visibility yellow and red alarm LEDs. In a warning condition, the yellow lights will flash and the lights in all three
windows will chase. In a danger condition, the red LEDs will flash and the lights in all three windows will chase.
Cub
Personal PID monitor for the accurate detection of volatile organic and total aromatic compounds. Cub is available in
three distinct variants; ppm, ppb and TAC mode. Choose a ppb or ppm instrument with 10.6 eV lamp for accurately
detecting a wide range of VOCs dependent on your sensitivity requirements. CubTAC with 10.0 eV lamp gives accurate
detection of total aromatic compounds (TACs) down to ppb levels.
GasAlert Clips
Requires no calibration, sensor replacement, battery replacement, or battery charging. Compatible with the MicroDock
II automatic test system, the simplicity of the GasAlertClip Extreme combined with minimal training requirements and
negligible maintenance costs, make the GasAlertClip Extreme one of the most cost-effective PPE solutions for facility
workers and on-site contractors.
RI-415
The RI-415 is a portable HC or CH4 detector. This sensor style provides accurate detection of HC or CH4 gas levels even
in N2 and inert environment. The measuring ranges are 0-100 Volume% and 0-100% LEL, with automatic ranging. The
RI-415 has explosion proof and Intrinsic safety construction so it can be used safely in any environment.
SC-8000
The large, LCD display, shows a digital value of the component gas concentration. In loud environments the highly
bright LED lamps are arranged in three directions making the unit visible from all angles. Some of the most common
toxic gases that the SC-8000 detects are Silane (SiH4), Phosphine (PH3), Arsine (AsH3), Ammonia (NH3), Hydrogen
Chloride (HCl), Chlorine (Cl2) and Hydrogen Fluoride (HF) and many others.
FC-21
The Gas Detector Model FI-21 is a precision gas analyzer which is adapted to measure the % volume concentration
of any of the commonly used gas in a mixture of air or oxygen for solvents, fumigation, gas purity and anaesthetic
gas. The standard instrument is calibrated for eight (8) selectable gas readings on the direct digital display. The FI-21
operating principle utilises the highly accurate measurement with CCD and Fourier analysis technology and electronic
circuitry to provide direct digital readout. The FI-21 is equipped with a built-in sample draw pump for ease of use.
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
OIL & GAS INSTRUMENTATION
Cub
57
GASTECH
AUSTRALIA
MULTI GAS DETECTOR
MultiRAE Lite
GasAlertQuattro
QRAE 3
GasAlertMax XT II
IQ Force
GasTech X4
MultiPro
PHD6
OIL & GAS INSTRUMENTATION
MultiRAE Pro
58
QRAE 3
QRAE 3 is a wireless compact monitor for one to four gases. The QRAE 3 provides detection and monitoring of
Oxygen (O2), Combustibles, and toxic gases that include Hydrogen Sulfide (H2S), Carbon Monoxide (CO), Sulfur
Dioxide (SO2) and Hydrogen Cyanide (HCN). QRAE 3 can deliver wireless real-time instrument readings and alarm
status 24/7. This provides better incident visibility and can improve response time.
MultiRAE Pro
The MultiRAE Pro is the industry’s only portable wireless multi-threat monitor. The MultiRAE Pro’s ability to
simultaneously detect gamma radiation and toxic industrial chemicals (TICs/TIMs) enables responders to reduce
the equipment footprint and achieve greater agility when operating downrange. The MultiRAE Pro’s optional wireless
capability improves safety by providing commanders and safety officers real-time access to instrument readings
and alarm status from any location1 for better situational awareness and faster incident response.
MultiRAE Lite
The MultiRAE Lite is the optimal one-to-six-gas monitor for personal protection and leak detection applications. The
MultiRAE Lite is available in pumped and diffusion versions and features the broad selection of sensor options in
its class. The MultiRAE Lite can be configured to exactly meet the detection needs and compliance requirements
of various countries, industries, and applications. The MultiRAE Lite’s optional wireless capability improves safety
by providing commanders and safety officers real-time access to instrument readings and alarm status from any
location for better situational awareness and faster incident response.
MultiRAE
The MultiRAE is the most advanced portable chemical detector on the market. The MultiRAE delivers the broadest
PID sensor range in its class and the versatility to support 25 intelligent interchangeable sensor options (such
as PID, NDIR for combustibles and CO2, ammonia, chlorine, formaldehyde, and phosphine) to fully meet the
monitoring needs in a variety of applications, including industrial hygiene, personal protection, leak detection,
and HazMat response. The MultiRAE’s optional wireless capability improves safety by providing commanders and
safety officers real-time access to instrument readings and alarm status from any location for better situational
awareness and faster incident response.
GasAlertMicroClip
XL
The easy to wear, slim and compact GasAlertMicroClip XL provides affordable protection from atmospheric gas
hazards. For extended battery life, especially in cold weather, choose the GasAlertMicroClip XL. This unit offers visual
compliance at a glance with the flashing, green IntelliFlash™. Easy onebutton operation reduces training time and
lets workers focus on the job at hand. For simple, cost-effective management of your records, calibration and bump
testing, choose BW’s MicroDock II automatic test and calibration system and Fleet Manager II software.
GasAlertQuattro
GasAlertQuattro four-gas detector combines a comprehensive range of features with simple one-button operation.
The graphic LCD displays easy to identify icons that indicate operational information, such as bump test and
calibration status for simplified onsite auditing.
GasAlertMax XT II
GasAlertMax XT II reliably monitors up to four hazards and combines straightforward one-button operation with our
robust, motorized pump for intelligent, remote sampling, ideal for confined spaces. The GasAlertMax XT II is fully
compatible with MicroDock II automated test and calibration system.
GasTech X4
The GasTech X4 is an unsurpassed portable gas detector for protection against flammable, Oxygen, Carbon
Monoxide and Hydrogen Sulphide gas hazards. It’s ideal for use by those wanting advanced performance, reliablity
and ease of use without high costs.
IQ Force
Monitoring for up to four gases including Oxygen (O2), combustible gases (%LEL), Hydrogen Sulfide (H2S) and Carbon
Monoxide (CO). Continuous black box data recorder captures a wealth of critical information. Retrieve logged data for
a specific incident, or analyze data regularly via the IQ Force Dock and IQ Management System
MultiPro
Three sensors and up to four channels to monitor O2, LEL and either CO or H2S, or using DuoTox dual channel
sensor, measure CO and H2S simultaneously. DuoTox is actually two toxic gas sensors in a single housing, giving
four channels of direct detection in the space of three - without cross interference.
PHD6
Configurable gas detector with 5 sensor ports, up to 6 channels of detection, and 18 sensor options including
electrochemical, LEL, PID and Infrared. The PHD6 is enclosed in a solid polycarbonate case with a TPE (rubber)
overmold, so it’s both tough and easy to handle.
KGC RESOURCES
GASTECH
AUSTRALIA
MicroRack
19” Rack (4100R)
Maxim II
Maxim III
Mimic Box
CONTROLLER
MicroRack
Featured with 1 to 8 channels, user upgradeable to 8 channels, one processor per channel, universal inputs, 2 individual
alarms per channel, 1 fault alarms per channel, analog output per channel, individual channel isolate, internal amplifier,
back lit graphical display per channel, and adjustable to 2000 Reads %LEL, ppm, % Vol, PPMm, LELm and blank
19” Rack
(4100R)
Featured with two channels per card, dual processors, universal inputs, 2 individual alarms per channel, 1 fault alarm
per channel, analog output per channel, individual channel isolate, internal amplifier, back lit graphical display per
channel, and adjustable to 2000 Reads %LEL, ppm, % Vol, PPMm, LELm and blank
Maxim II
Featured with 100 milisecond cycle/scan time, 6 configurable universal inputs, 6 digital relay outputs, 4 analog
outputs, 25 user defined watches, data logging of 512 kb for 50,000 readings, program resides in non-volatile Flash
Ram with RS485 port connector
Maxim III
Featured with 500 miliseconds cycle/scan time, 20 configurable universal inputs, 12 digital relay outputs, 8 analog
outputs, program resides in non-volatile Flash Ram with RS485 port connector
Mimic Box
The Mimic box is hard wired back to the control panel common relay outputs, or an individual channel’s relay outputs
if needed. If the status of the Fire and Gas panel or the individual channel changes the Mimic box sounder will activate
and the associated bright LED will illuminate indicating the cause of the alarm.
OIL & GAS INSTRUMENTATION
FIXED GAS DETECTOR
H-Guard L
D-Guard
D-Guard S
C-Guard
S-Guard Ir
TVOC Fixed
GAS TRANSMITTER
D-Guard
Featured with zero stability logic, non intrusive calibration, graphical backlit display, no alarm calibration, isolate feature,
fully programmable processor control, high impact non-static housing, two wire 4-20 mA, 3 user adjustable SPDT90%
full scale response in less than 40 seconds sensor dependent with multiple single gas selection to detect up to 0 to
200 ppm in 1 ppm increments.
D-Guard S
Featured with zero stability logic, non intrusive calibration, graphical backlit display, no alarm calibration, isolate feature,
fully programmable processor control, high impact non-static housing, two wire 4-20 mA, 3 user adjustable SPDT, 98
dB sounder, 90% full scale response in less than 40 seconds sensor dependent with multiple single gas selection to
detect up to 0 to 200 ppm in 1 ppm increments.
C-Guard
Featured with 45 seconds to calibrate, zero stability logic, non intrusive calibration, fully programmable processor
control, vandal proof high impact housing, two wire 4-20 mA analog output, 3 LED indication of status, 90% full scale
response in less than 40 seconds sensor dependent with multiple single gas selection to detect up to 200 ppm.
S-Guard Ir
GasTech Australia Smart Guard series S-GuardTM Series GIR-3000 hydrocarbon detector is a single source dual
wavelength instrument. The sensing and reference elements are self-compensating for optical integrity and other
signal inhibitors. The industry standard 4 -20 mA analog output provides remote alarm, fault and calibration signals.
Continuous detection of combustible gas in explosion hazardous area with flame proof structure.
H-Guard L
The Mimic box is hard wired back to the control panel common relay outputs, or an individual channel’s relay outputs
if needed. If the status of the Fire and Gas panel or the individual channel changes the Mimic box sounder will activate
and the associated bright LED will illuminate indicating the cause of the alarm.
TVOC Fixed
With an intelligent 4-20 mA analogue output, TVOC can be simply integrated into a DCS control system to give warning
or control of high VOC levels in the working environment. Designed for simple installation, service and calibration,
TVOC is ideal for use in manufacturing and process industries where VOCs are typically present. Patented Fence
Electrode Technology for high sensitivity, humidity, and contamination resistant operation.
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
59
SRI GC
USA
GAS CHROMATOGRAPH
Chromatography is the most commonly used method for analyzing chemical compounds. SRI
Instruments manufactures preconfigured and custom-built gas chromatographs (GCs), and
chromatography data systems for use with any brand of GC or other instrument.
15 types of detector selection
• CCD (Catalytic Combustion Detector)
• TCD (Thermal Conductivity Detector)
• FID (Flame Ionization Detector)
• DELCD (Catalytic Combustion Detector)
• FID/DELCD (Combination FID and DELCD)
• HID (Helium Ionization Detector)
• PID (Photo Ionization Detector)
• NPD (Nitrogen Phosphorus Detector)
Model
The SRI BioDiesel GC System is configured to perform ASTM 6584 (residual free and
bound Glycerin in BioFuel). Analysis takes about 25 minutes. FID detector and on-column
injector, and 15 m wide-bore capillary column available. The included PeakSimple Data
System displays the calibrated results directly without off-line calculations.
Compositional
analysis of natural
gas
The Natural Gas Analyzer GC system is pre-plumbed and ready to measure N2, methane,
CO2, ethane, H2O, propane, iso- and normal pentanes, iso- and normal pentanes, and
C6 plus backflush. The main benefits of the Natural Gas Analyzer GC are simplicity, low
cost, and the ability to determine the water content of the gas.
General hydrocarbon
analysis
The 30 meter capillary column can efficiently separate hydrocarbons up to C20+. The
on-column injector (for 0.53mm capillary columns) is good for liquid and gas sample
with high and low boiling analytes—no boiling point discrimination. The built-in, ‘whisper
quiet’ air compressor provides a nearly silent supply of combustion air for the FID detector,
so an air cylinder is not required for most applications. The optional split/splitless injector
upgrade allows for the use of 0.32mm, 0.25mm and smaller capillary columns.
Semivolatiles
The On-Column Programmable Temperature Vaporization (OCPTV) injector allows larger
and simpler liquid injections than are otherwise possible with narrow bore columns. Like
a traditional heated Split/Splitless injector, the OCPTV has a spilt vent and needle valve
for venting solvent while concentrating sample. Unlike a heated Split/Splitless injector,
the OCPTV vents the solvent without without rapid vaporization.
Trace sulfur in gases
or ambient air
The CryoSulfur GC uses a vacuum pump (included) to draw gas samples into the
CryoCooler. Ambient air can be sampled, or use the provided adaptor to connect a
Tedlar bag. The vacuum pump interface, which is an electrical outlet on the left-hand
sife of the GC, allows the vacuum pump to be turned ON/OFF by the PeakSimple data
sysrem to provide consistent sampling times.
Dissolved gas
analysis in water and
other liquids
The DGA GC System from SRI Instruments is designed to make dissolved gas analysis
easier ands less expensive than other methods. No sample preparation is necessary
prior to injection into the DGA GC; this helps to avoid contamination made possible by
transferring the sample between various containers.
EPA 800 series
methods
Equipped with Method 5030 or 5030/5035 compliant Purge & Trap, PID and FID/DELCD
detectors, it will easily generate certification quality data for EPA Methods 8021, 8010,
8015, TO-14, and many others.
Nitro-aromatic &
nitramine explosices
The Explosives GC system from SRI combines a Heated Flash Vaporization injector,
a built-in ‘whisper quiet’ air compressor, and a Thermionic Ionization Detector for
detection of nitroaromatic explosives such as TNT, and nitramine explosives such as
RDX (C4) and HMX.
Geoprobe GC
Continuous VOCs &
separation of purge
gas
The three detectors—FID/DELCD combination detectors and a PID detector—are
plumbed in series so that the Geoprobe purge gas flows through each detector
sequentially. The PID responds to all aromatics molecules (benzene, toluene, etc.) and
many chlorinated VOCs (TCE, PCE, etc.). The FID responds to all hydrocarbons and the
DELCD responds only to chlorinated or brominated compounds.
Greenhouse Gas GC
Methane, CO2 and
N2O
The Greenhouse Gas GC is designed for the detection of carbon dioxide (CO2), methane
(CH4) and nitrous oxide (N2O). Depending upon the volume of the sample loop on the
gas sampling valve, it can detect trace levels or high concentrations. It may be used for
stack or ambient air monitoring, or in a plane for atmospheric air analysis.
Natural Gas Analyzer
OIL & GAS INSTRUMENTATION
Description
ASTM method
D-6584 glycerol in
B-100 biodiesel
Biodiesel GC
Capillary FID GC
Capillary FID GC
(Narrow Bore)
CryoSulfur GC
DGA GC
Environmental &
BTEX GCs
Explosive GC
60
Purpose
• TID (Thermal Ionization Detector)
• FPD (Flame Photometric Detector)
• FPD/FID (Combination FPD and FID)
• Dual FPD (Dual wavelength FPD)
• FID dual FPD (Combination dual FPD and FID)
• ECD (Electron Capture Detector)
• RGD (Reduction Ionization Detector)
KGC RESOURCES
SRI GC
Purpose
Description
Measurement of THC, Model 8610C GC configured for medical cannabis potency testing allows even
Medical Herb Potency CBD, and CBN
inexperienced users to quickly ( 5 minutes ) test for THC, CBD and CBN content in plant,
GC
oil or edible matrixes. The Thermionic Ionization Detector ( TID ) requires only dry air to
operate, and the GC is equipped with a built in air compressor and gas stream dryer.
Methane/NonMethane GC
Multiple Gas Analyzer
#1
Methane/nonmethane HCs
The SRI Method 25 GC system is equipped with an FID detector, built-in air compressor,
and a 10-port backflush gas sampling valve to quickly determine methane/non-methane
hydrocarbons as per EPA Method 25. The PeakSimple data system controls the temperature
programmable column oven and the gas sampling valve, collects the data, quantitates the
non-methane hydrocarbons.
Fixed gases & light
hydrocarbons
The SRI Multiple Gas Analyzer #1 GC System (MG#1) can separate multiple gases with a
single injection. It is pre-plumbed and ready to resolve H2, O2, N2, methane, CO, ethane,
CO2, ethylene, acetylene, propane, butanes, pentanes and C6, if desired. The MG#1 is
tolerant of user adjustments and timing variations because it is simpler than other multigas capable systems.
Fixed gases &
Multiple Gas Analyzer hydrocarbons
#2
The Multiple Gas Analyzer #2 GC system (MG#2) is pre-plumbed and ready to resolve H2,
O2, N2, methane, CO, ethane, CO2, ethylene, water, alcohols, propane, butanes, pentanes
and C6. The MG#2 is similar to the MG#1, except that the MG#2 can measure water and
alcohol in addition to the multiple gas compounds.
Fixed gases &
hydrocarbons
The SRI 8610C Gas Chromatograph Multiple Gas #3 GC configuration is a versatile low
cost way of analyzing many different kinds of gas samples. The MG#3 GC configuration
is almost identical to the MG#1 GC configuration except there is an additional solenoid
valve which when activated by the PeakSimple data system stops the flow of carrier gas
in column 1. The MG#3 GC configuration is slightly more flexible than the MG#1 because
the stop flow capability allows a wider selection of columns to be used.
Multiple Gas Analyzer
#3
H2S, SO2, fixed gases
Multiple Gas Analyzer & C1-C20
+ Sulfur
PCB GC
Soil Gas GC
TO-14 Air Monitoring
GC
Gasless Educational
CCD GC
PCBs in soil and other The thermal desorber permits the user to inject and analyze PCBs with very high sensitivity
solid matrices
and little or no sample preparation—no solvent extraction is required. Up to 1 gram of soil
can be loaded into each re-usable glass desorption tube. The FID detector responds to all
hydrocarbons, and the DELCD indentifies which are halogenated.
Soil & gas
investigation
applications
Sensitive and non-destructive, the PID detector responds to aromatics and any molecule
with a carbon double bond. The combination FID/DELCD detector may be operated in
regular (simultaneous operation) or high sensitivity mode (DELCD only, FID hydrogen off).
The FID responds to linearly all hydrocarbons, while the DELCD responds to chlorinated
and brominated molecules.
EPA air monitoring
methods
The dual trap TO-14 Air Concentrator has a gas inlet instead of a liquid purge vessel (a
liquid purge head can be added if required). The innovative dual trap design results in
more efficient trapping and desorption than single trap designs, especially for early eluting
peaks such as vinyl chloride.
Teaching basic
separation in the
classroom
Gasless Educational GC system is ideal for undergraduate chemistry classes where the
principles of gas chromatography are demonstrated on the same equipement students will
encounter in industry. The Gasless Educational GC includes a built-in ‘whisper quiet’ air
compressor and a CCD detector. The CCD detects combustible (hydrocarbon) molecules.
Teaching
undergraduate GC
The Educational FID GC system is ideal for undergraduate chemistry classes or graduate
level research. Both the carrier gas and the FID combustion gas are controlled by
programmable electronic pressure control modules (EPC). EPC not only provide retention
time reproducibility, but allow the carrier gas to be pressure ramped (just as the column
oven is temperature ramped) from the built-in PeakSimple data system.
Demonstrating GC
on industry standard
equipment
The Educational TCD GC system is ideal for undergraduate chemistry classes with labs.
Configured on the ultra compact 310 chassis, the Educational GC includes a traditional
4-filament Themal Conductivity Detector that can heat to 275°C. The built-in single
channel PeakSimple data system provides easy and powerful data aquisition, as well as
temperature programming for the column oven.
Educational FID GC
Educational TCD GC
PRODUCTS CATALOG
It is designed to detect low sulfur concentrations which consists of multiple gas analysis
and sulfur analysis in one unit by using just 1 gas sampling valve and 3 columns, built in
air compressor with 6 channel PeakSample data system. The system use an inert transfer
line leading to a splitter, and a 60-meter thick film capillary column.
OIL & GAS INSTRUMENTATION
Model
USA
www.kgcresources.com | www.kgcscientific.com
61
BE MARUBISHI
JAPAN
MICRO FERMENTOR
B.E. MARUBISHI Japan has a
long experience over 50 years
in the modern bio - industry.
They are specialized in the
field of fermentation, food,
pharmaceutical,
medical,
chemical, energy, agriculture
and mining. Their products are
widely used with high reputation
in both government and private
institution’s
laboratories all
around the world. At the present,
B.E. MARUBISHI Japan is the
world - leading manufacturer
and distributor of equipments,
instruments,
system
and
software used in biotechnology.
MDFT-µ
Model
MDFT-µ
Description
Micro Fermentor MDFT µ100/100 mL
Specifications
• Suitable for minimum volume fermentation
• The vessel made of Pyrex glass, heat resistance, and
autoclavable
• Silicone made upper head cap
• Magnet stirrer with DC brushless motor give
accurate speed control
• Air supply with single nozzle sparger, flow meter, and
0.22 µ air filter
• 6 mm dia. pH and DO electrode can be installed
• Recorder output for temperature and stirring speed
• Temperature control by silicone rubber heater and
cooling pipe
• Compact shape console saves space
BIOTECHNOLOGY & LIFE SCIENCE
DESKTOP FERMENTOR
62
BE MARUBISHI’s Photo Bioreactor was especially designed for cultivation of microalgae and callus.
Fine bubbles from 30 micron stainless fiber filter creates high gas transfer coefficient. The low shear
stress homogenization system makes vertical circulation flow minimalizing damage to cells. The highly
effective lighting system stimulates photosynthesis.
Standard Specifications:
• The vessel made of Pyrex glass, heat resistance, and autoclavable
• Upper head plate made of stainless steel SUS304/316L
• Both internal and external electropolish grinded No. 300 buff
• Agitation system is sealed by mechanical seal or non-sealed magnetic driving system
• Impeller type turbine, fullzone, and paddle complete with baffle for enhanced mixing
• Temperature control by silicone rubber heater and cooling water
• Air inlet to the vessel pass filter size 0.2 micron through air sparger and control by rotameter type
needle valve
• 4-20 mA for recorder output
MDFT-500
Model
MDFT-100
MDFT-200
MDFT-300
MDFT-500
MDFT-750
MDFT-1000
Vessel Size
1 Liter
2 Liter
3 Liter
5 Liter
7.5 Liter
10 Liter
Vessel ID
95 mm
114 mm
134 mm
150 mm
170 mm
190 mm
Vessel Depth
158 mm
200 mm
228 mm
285 mm
332 mm
355 mm
Vessel Quality
Heat Resistance Glass Pyrex/SUS316L
Driving System
Magnetic Bottom Drive/Mechanical Top Drive
Driving Speed
100 - 1000 rpm
Temp. Range
5°C Above water supply temperature to 50°C
Aeration Rate
0.2 - 2 sl/m
KGC RESOURCES
ermentor MD
100 - 800 rpm
0.5 - 5 sl/min
1 - 10 sl/min
BE MARUBISHI
JAPAN
BIONEER NEO SERIES standard features:
• Remote control by PC/Ethernet/Wi-Fi
• Complete calibration for pH, DO electrode, and additive pumps
• Various control items
• Batch control and data logging for substantive bioreactors
• Fed-batch function pH/DO/Load cell/User definition
• Proportional, Upper and Lower limit, PID and Cascade control
• Can be installed any position due to separated component
• Upper drive with a single mechanical seal as standard
• Bottom drive with a magnet coupling is also available
• HMI interface for friendly operation
• Instinctive management and operation
• Fed batch Culture with various ways is available
• Maximum 8 bioreactors can be controlled for batch or individual
• Bottom drive with a magnet coupling is also available
Optional:
• Turbidity measurement
• On-line cell concentration can be
measured
• Thermal mass flow controller as
standard accessory
• 50:1, wide range, and accurate
flow adjustment
• Mixed gas supply
• Various gasses supply by manual
or automatic is available upon
request
BNR-300
Main Screen
BIOTECHNOLOGY & LIFE SCIENCE
INTELLIGENT BIOREACTOR
Parameter Calibration
Fed Batch Control System
Network Connection between
different Bioneers
PRODUCTS CATALOG
Max 8 Bioneers that can be controlled by batch or
individually
Bioneer can realize certainly sterility
and highly effective aeration and
stirring by high power agitation motor,
powerful magnetic bottom drive and
specially designed impeller. Bioneer
corresponds incubation of high
viscosity range and animal and plant
cell culture by adoption the mechanical
seal and small size high torque motor.
The direct drive agitation mechanism
realizes compact shape and easy
handling. Unique designed impeller
(retrogression paddle impeller). Fullzone
is the most suitable for high viscosity
range culture and obtain high kLa and
homogenization with low shear stress.
It is ideal for production of antibiotic
and biopolymer and for animal and
plant cell cultivation.
www.kgcresources.com | www.kgcscientific.com
63
BE MARUBISHI
JAPAN
INTELLIGENT BIOREACTOR
Vessel Volume:
Model
BNR-50
BNR-100
BNR-200
BNR-300
BNR-500
BNR-1000
Vessel Size
0.5 Liter
1 Liter
2 Liter
3 Liter
5 Liter
10 Liter
Working Volume
0.2 - 0.3 Liter
0.4 - 0.6 Liter
0.8 - 1.2 Liter
1.2 - 1.8 Liter
2 - 3 Liter
4 - 6 Liter
Method
Heater (160 - 300 W) and cooling water
Range
5°C Above water supply temperature to 50°C
Sensor
PT100
Coupling
Top drive with a single mechanical seal or Bottom drive with a magnetic coupling
Range
50-1200rpm
Impeller
2 stages of turbine impeller / 6 blades (as standard)
Method
Mass Flow Controller (MFC)
Sparger
C-shape ring sparger (option: micro bubbler)
Range
0.2-2.0/ 0.5-5.0/ 1-10 SL/min ( by thermal mass flow controller)
Filter
0.2 μm hydrophobic
Method
Supply acid and base by peristaltic pumps
Range
2 - 12 pH
Specifications:
Temperature
Agitation
BIOTECHNOLOGY & LIFE SCIENCE
Aeration
pH
Sensor
Combination pH electrode
Method
By agitation speed and/or air flow control
Range
0 - 100%
Optional
control
By pressure control (with pressure sensor and valve) or
Oxygen supply (with optional MFC)
Sensor
Polarographic oxygen electrode
Sensor
Redox potential electrode
Range
-999 to 999 mV
AF
Method
Supply anti-reagent by a peristalting pump by AF sensor
Pressure
Method
Control of vessel inside with optional pressure sensor
Fed Batch
pH stat
By pH control signal
DO stat
By DO signal
Load cell
By measurement of feeding quantity or feeding speed
User definition
By user’s program
DO
ORP
Multi Channel Controller
MCI-6C
64
KGC RESOURCES
Features:
Multi Channel Indicator/Controller for
• Measurement in ppm, mg/l or %
pH, Dissolved Oxygen & Anti Foam
saturation
Model
MCI-6C
• Two 0/4….20mA current output,
Application • D.O. Range: Saturation 0-500%;
galvanically isolated
Areas
COncentration 0-20 ppm
• Password protection against
• D.O. Accuracy: 0.5% of measured value
accidental parameter change
• pH Range: -1 to 15 pH
• Pressure and Salinity input for
• mV Range: -1500 to +1500 mV
automatic correction
• pH/mV Accuracy: 0.03 pH/62 mV
• Integrated PI controller, pulse length
• Temperature Input: PT100/PT1000 (jumper
or pulse frequency
selectable)
• Two relay as limit contact with on/off
• Current Putput: 2x0/4-20 mA
delay timer
• Control Function: PI Controller; Pulse length
• One relay as alarm contact and one
& pulse frequency
relay as wash contact
BE MARUBISHI
JAPAN
R&D SCALE FERMENTOR
All surfaces in product contact are fabricated from SS316 material.
All internal and vessel welds are ground smooth & mechanically
polished. All interior surfaces are polished to Ra<0.2 micron. Either
top entry or bottom entry driving system is available with double
mechanical seal. Versatile use for microbes with standard & plant
tissue or mammalian cell with special modification. Flexible design
suit to the the condition of customer’s installation site. Either modular
type controller or multi-channel BIO-Process control (MDIAC-S6) will
meet various kind of demand for measurement & control of culture
condition. Computer coupling with the MDIAC-S6 enable intelligent
control system construction.
PILOT PLANT FERMENTOR
The process control system has the
following items:
• Temperature of the internal measurement
• pH measurement
• Dissolved oxygen measurement
• Agitation speed measurement
• Air flow rate measurement
• Carbon dioxide flow rate measurement
• Vessel pressure measurement
• ORP measurement and indication
• Drain pipe end temperature measurement
• Sterile piping header pressure
BIOTECHNOLOGY & LIFE SCIENCE
MSJ SERIES
(10, 20, 30, 40, 50,70 & 90 L)
MPF SERIES
(100, 200, 300, 400, 500 L - OTHER SIZE AVAILABLE UPON REQUEST)
All surfaces in product contact are fabricated from SS316 type. All internal and vessel welds are ground smooth & mechanically polished.
All interior surfaces are polished to Ra<0.2 micron. Either top entry or bottom entry driving system is available with double mechanical seal.
Versatile use for microbes with standard & plant tissue or mammalian cell with special modification. Flexible design suit to the the condition
of customer’s installation site. Bioprocess automatic operation & control system (BPACS) are used to control temperature, pH, agitation
speed and other parameters, which for automation control are sterilization, medium transfer, and others. A graphic touch panel is used by
operator to control system’s data display, parameter setting & switching operation.
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
65
QUANTEK INSTRUMENTS
USA
HEADSPACE/PACKAGE TESTER
Model 901
Model 905
Model 902D
Model 907
Founded in 1995, QUANTEK INSTRUMENTS manufactures oxygen analyzers and carbon dioxide analyzers for food, research, educational,
and government institutions.
Model
Purpose
Specifications
BIOTECHNOLOGY & LIFE SCIENCE
901: Headspace
Oxygen Analyzer
905: Headspace
Oxygen Analyzer
Primarily used for
the measurement
of residual oxygen
in CAP/MAP food
packages
• Range: 0.0 to 100% Oxygen
• Resolution: 0.1% Oxygen
• Sensor: Proprietary electrochemical cell, expected lifetime 4-5 years
• Sample Pump: Internal, draws ~5cc/sec, with 2-12 second adjustable timer
• Sampling Assembly: Probe with male luer connection for side-port needle, PTFE
tubing
• Calibration: Calibrates with room air
• Dimension of 249 x 102 x 254 mm
• Included Consumables: 200 foam septas, 2 luer fit needles, 2 particulate filters, 2
liquid block filters
• Input Voltage: 100-240V, 50-60 Hz (Battery is optional)
• Miniature diaphragm pump with 5cc/sec flow and 2 - 12 sec adjustable timer
• 12” length of double reinforced sample prob with exhaust port vents to air
• Dimensions of 249 x 102 x 254 mm
902D: Oxygen &
Carbon Dioxide
Headspace Analyzer
Primarily used for
the measurement
of residual oxygen
in gas-flushed food
packages
Oxygen Channel
• Proprietary electrochemical cell as sensor
• O2 ranges from 0 - 100%
• 0.1% O2 resolution
Carbon Dioxide Channel
• Solid-state Infrared cell as sensor
• CO2 ranges from 0 -20% or 0 - 100%
907: Portable
Oxygen & Carbon
Dioxide Analyzer
66
Primarily used for
the measurement
of residual oxygen
in gas-flushed food
packages
• Range: 0.0 to 100% Oxygen
• Resolution: 0.1% Oxygen
• Sensor: Proprietary electrochemical cell, expected lifetime 4-5 years
• Sample Pump: Internal, draws ~5cc/sec, with 2-12 second adjustable timer
• Sampling Assembly: Probe with male luer connection for side-port needle, PTFE
tubing
• Calibration: Calibrates with room air
• Dimension of 200 x 100 x 40 mm
• Included Consumables: 200 foam septas, 2 luer fit needles, 2 particulate filters, 2
liquid block filters
• Battery operated (Four ‘AA’ NiMH rechargeable batteries)
KGC RESOURCES
For measurement
of O2 and CO2
levels in gas flushed
MAP packages
(such as coffee or
meat products) and
research applications
(such as cell
incubators)
• Miniature diaphragm pump with 5cc/sec flow and 2 - 12 sec adjustable timer
• 12” length of double reinforced sample prob with exhaust port vents to air
• Dimensions of 203 x 51 x 178 mm
Oxygen Channel
• Proprietary electrochemical cell as sensor
• O2 ranges from 0 - 100%
• 0.1% O2 resolution
Carbon Dioxide Channel
• Solid-state Infrared cell as sensor
• CO2 ranges from 0 -20% or 0 - 100%
QUANTEK INSTRUMENTS
USA
Model 902P
Model 905P
Model 200A
Model 908
Model 906
Model 902P
Model 905P
Carbon Dioxide Analyzer
Oxygen/Carbon Dioxide Analyzer
Process Oxygen Analyzer
Designed for continuous or spot
measurement and analysis of carbon
dioxide levels
Primarily used for research processes, gas
blending, biotech, and other systems
Designed to check oxygen levels in all
types of processes, gas blending, biotech,
fermentation, & controlled atmosphere room
• Measuring range from 0.0 to 100%
CO2
• 0.1% CO2 resolution
• Sensor- Infrared (NDIR); non-depleting
with no moving parts
• Sensor Body - Anodized aluminum
• Sample Pump - Optional; internal, with
on-off switch on front panel, draws
about 5 cc/sec
• Battery Operation - Optional, with
internal rechargeable 12 Vdc battery
• Size: 254 x 106 x 267 mm
• Consumables: Internal, userreplaceable moisture & particulate
filter; external 4 in. moisture removal
cartridges
• (Optional) Sample Pump - Miniature
diaphragm type with ~5cc/sec flow
• Pump Timing – (Optional) 2-mode pump
switch (timed, or continuous); (optional)
cycling pump with on/off timer
• Sampling Port - Front panel fitting with
luer connection for disposable filter,
plastic splitter; 1/16 to 1/8 ID tubing
• Exhaust port – Vents to air or tube outlet
for recirculation to closed systems
• Size: 249 x 102 x 254 mm
• Range: 0.0 to 100% Oxygen
• Resolution: 0.1% Oxygen (optional .01%
resolution available)
• Sensor: Proprietary electrochemical cell
• (Optional) Pump: Internal, with adjustable
timer (2-12 seconds), draws ~5cc/sec
• (Optional) Battery: 10-14 hour run time
before recharging
• Options: Internal pump, cycling-enabled
pump, 0-5Vdc analog output, internal
relay/control board to activate external
audible alarm, buzzer, or contact closure.
• Size: 249 x 102 x 254 mm
Oxygen Channel
• Proprietary electrochemical cell as sensor
• O2 ranges from 0 - 100%
• 0.1% O2 resolution
BIOTECHNOLOGY & LIFE SCIENCE
GAS FLOW/PROCESS ANALYZER
Carbon Dioxide Channel
• Solid-state Infrared cell as sensor
• CO2 ranges from 0 - 100%
Model 200A
Model 908
Model 905V
Portable Oxygen Analyzer
Carbon Dioxide Analyzer for Process &
Research
Pharmaceutical Vial Oxygen Analyzer
Primarily used for the measurement
of oxygen concentration in gas flows,
chambers, or gas flushed hoods
Specifically designed for continuous or spot
check measurement of CO2 levels
Used in headspace oxygen analysis in
pharmaceutical products - vials, blister packs,
or bottles
• Measuring range from 0.0 to 100% O2
• 0.1% O2 resolution
• Alarms: High/Low Alarms: Red flashing
LED, pulsating 2300Hz, 80db, 1.4Hz duty
cycle buzzer
• High Alarm Range: 0-99% (>1% Higher
than low alarm)
• Low Alarm Range: 1-99% (>1% Lower
than high alarm)
• Sensor: Proprietary Electrochemical
Cell
• Battery time (typical use): 2 x AA
alkalines, -3000 hrs. runtime
• Size: 90 x 40 x 140 mm
• Range - 0.0 to 100% Carbon Dioxide
• Resolution - 0.1% CO2 for 0 to 30, 0-50,
and 0 to 100% ranges
• Sensor- Infrared (NDIR); non-depleting
with no moving parts
• Sensor Body - Anodized aluminum
• Calibration - Single Point Calibration With standard calibration gas
• Sample Pump - Optional; internal, with
on-off switch on front panel, draws about
5 cc/sec
• Battery Operation - Included, with internal
rechargeable 12 VDC NiMH battery pack
• Size: 203 x 51 x 178 mm
• Range: 0.0 to 100% Oxygen
• Resolution: 0.01% Oxygen
• Sensor: Proprietary electrochemical cell,
expected lifetime 4-5 years
• Sample Method: Water displacement
method; alternately, product can be
squeezed to introduce sample to analyzer
• Minimum Sample Required: 0.5cc
• Sampling Assembly: Probe with male
luer connection for side-port needle, PTFE
tubing
• Backup Power: Optional 12V internal battery
pack
• Size: 249 x 102 x 254 mm
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
67
IZON
NEW ZEALAND
NANO PARTICLE ANALYZER
BIOTECHNOLOGY & LIFE SCIENCE
Izon’s qNano package is currently the only tunable pore system commercially available
in the world. The qNano system offers wide ranging and comprehensive analysis of
both micro- and nanosized particles ( [A] ~50 nm to 20 micrometers, can extend up to
[B] 5 to 100 micrometers) in solution and enables users to quantify and map reaction
dynamics based on the principle of resistive pulse sensing with a tunable pore. Izon has
patented and developed a unique tunable nanopore system (known as Tunable Resistive
Pulse sensing, TRPS) that simultaneously characterizes sample mixtures’ distributions
of particle sizes (particle volume) and relative surface charges (electrophoretic mobility)
distributions as well as particle concentration (in number of particles per mL of sample,
unit), with individual particle-by-particle detail.
It enables users to obtain extra layers of detail of mixtures on a particle-by-particle
basis, since the method analyzes each individual particle as it passes through the sensing
nanopore. It is nonoptical (not laser-based) methodology, and thus, does not suffer from
the limitation of intensity weighted averaging intrinsic with conventional laser-scattering/
absorbance systems. In laser systems, larger particles and/or aggregates in the mixture
qNano is sold as a full system ready for use including frequently overshadows scattered laser light from the main population of smaller sized
the base instrument, variable pressure module, fluid particles in the same solution. The qNano is able to overcome the intrinsic limitation
cell and a starter kit of nanopores, buffer solution and by analyzing mixtures with a different methodology based on a sensing nanopore and
standard particle sets.
analyzes with a ‘bottom-up’ particle-by-particle approach.
68
Capability
qNANO
Accurate Particle Size and
Sample Polydispersity
Size Tunable Nanopores accurately measure each particle, providing representative information on the
size and polydispersity of mixtures.
Particle-by-Particle Charge
Analysis
qNano uniquely measures the size and zeta-potential of each individual particle in solution simultaneously, providing a high level of detail for the sample.
Quick, Precise Concentration Nanopore-based sensing counts particles precisely, and rapidly determines the number of particles per
Measurement
mL of sample. A large concentration range is covered, spanning 105 - 1012 particles per mL.
More Accurate than Lightbased Approaches
Partilce-by-particle measurement elimates the data skewing that occurs with intensity-weighted biased
approaches such as Dynamic Light Scattering (DLS).
Real-Time Monitoring of
Particle Interactions
Particle-by-particle measurement builds up population-level data in real time, allowing the dynamics of
particle-particle and particle-biomolecule.
Analysis of a Wide Range of
Particles
Viruses - Adenovirus, Lentivirus, Baculovirus, HIV, H1N1, H7N3, CMV, Dengue, Flu viruses, Phage, EV7
Bacteria & Cells, E.Coli, Plankton, Shewanella, Bacilli, Cocci, Yeast, Virus-like-Particles, Blood Platelets,
Liposomes, Exosomes, Protein Bioconjugates, Vesicles, Bio-fragments, micelles, lipids, Cubosomes,
Polymeric, PLGA, Hydrogels, Emulsions, Polystyrene, PMMA Magnetic, Titania, Silica, Pt, Gold etc.
Users are able to control particle movement through the tunable pore for measurement via fine control of both electric and/or pressuredriven mechanisms at variable scans of pore geometry, thus offering detailed, statistically representative, multi-dimensional description of
particle mixtures and its dynamics in solution with single-particle resolution. It analyzes individual particles much faster than by electron
microscopes (TEM, SEM, AFM), hundreds to thousands of particles per minute. It provides quantitative, multi-parameter results, analogous to
Flow Cytometry (F.C), but covers size range that is much more sensitive than F.C, i.e. 50 nm to 20 microns (F.C has a practical limit of ~1
micron). The qNano enables measurement in solution, rather than under high-vacuum, which gives users the ability to quantify reaction
dynamics, e.g. aggregation or fragmentation, or surface reactions.
It enables users to obtain extra layers of detail of mixtures on a particle-by-particle basis, since the method analyzes each individual
particle as it passes through the sensing nanopore. It is nonoptical (not laser-based) methodology, and thus, does not suffer from the
limitation of intensity weighted averaging intrinsic with conventional laser-scattering/absorbance systems. In laser systems, larger particles
and/or aggregates in the mixture frequently overshadows scattered laser light from the main population of smaller sized particles in the
same solution. The qNano is able to overcome the intrinsic limitation by analyzing mixtures with a different methodology based on a sensing
nanopore and analyzes with a ‘bottom-up’ particle-by-particle approach.
A wide range of particles have been analyzed with the qNano system, where researchers are utilizing for applications in Nanomedicine, drug delivery, virology, vaccine development, microbiology, nanotechnology and material science. These micro- and nano-sized
particles include cells, blood particles, bacteria, viruses, viruse-like-particles (VLPs), protein complexes, magnetic particles, liposomes, PLGA,
polymers, emulsions, exosomes, vesicles, silica, titania and many more.
The qNano system is extremely agile, portable and physically small in size (about the size of a kettle) enabling point-of-care
measurement and can be placed inside fumehoods or temperature controlled ovens, or biosafety cabinets. A small volume of sample is
needed for measurement, 35 microliters, pipetted to the chamber cell. Software licenses, online training and technical support are included
in the package. Additionally, future software updates are included and downloadable in Izon’s online support centre.
KGC RESOURCES
HEBLAB
CHINA
HEB’s cylindrical glass reactor is an ideal device in synthetic chemical, biological, pharmaceutical and etcetera. Liquid circulation of hot,
cold or cryogenic can be filled into the jacket of the reactor. Substance reacts by stirring under normal or negative pressure in airproof glass
container. Reaction process can be watched clearly through crystal reaction flask. This equipment is very suitable in library experiment or
medium-production in modern biology and pharmacy. It is also applied in synthesizing materials in fine chemical industry.
HEB-100L
HEB-2L
HEB-50L
HEB-30L
General Features:
• Integrated jacket reaction flask has big caliber with good seal and high strength
• Professional PTFE cover supports high speed stirring in vacuum
• Three standard mouth can be used for multi-purpose according to customer needs. Standard fittings are charging cork, thermometer
tube and reflux condenser.
• Converting-frequency adjustable speed for AC motor with constant rotating speed, no brushless, no sparkle, safe, stable and can
continuously working for hours
• The glass is made from GG17 high quality silicone material which owns good chemical-physical attribute.
• Stainless steel frame which is fasten using three-joint hardware that will not shake when the user is running an experiment
• Basic standard components for each model installed by HEB to users are:
• LCD controller with consists of a speed and temperature display, speed control knob and power switch
• Actuator to stir substance which is an electric motor with a frequency converter and stirring rod
• Temperature sensor and vacuum gauge installed to observe the substance condition (optional)
• Condenser, receiving flask, constant pressure funnel, extract port, charging valve, discharging port, reflux,
tray, kettle neck, reactor lid, up lid, gimbal joint collection and jacketed glass vessel are common parts in
assembling jacketed glass reactor
Overall Dimension
LxWxH
Volume
Rotation Speed
Flask
Necks
Torque
Power
HEB-1L
35 x 27 x 65 cm
1L
30 - 1300 rpm
4 pcs
2400 gcm
40 W
HEB-2L
43 x 35 x 100 cm
2L
100 - 1300 rpm
4 pcs
5000 gcm
90 W
HEB-3L
50 x 38 x 95 cm
3L
0 - 1300 rpm
4 pcs
5000 gcm
90 W
Model
HEB-5L
50 x 38 x 105 cm
5L
30 - 1300 rpm
5 pcs
5000 gcm
120 W
HEB-10L
57 x 57 x 180 cm
10 L
0 - 1300 rpm
5 pcs
7200 gcm
120 W
HEB-20L
61 x 41 x 180 cm
20 L
50 - 900 rpm
5 pcs
15000 gcm
180 W
HEB-30L
100 x 105 x 240 cm
30 L
50 - 900 rpm
5 pcs
15000 gcm
250 W
HEB-50L
100 X 150 X 240 cm
50 L
50 - 900 rpm
5 pcs
22000 gcm
370 W
HEB-80L
56 x 74 x 267 cm
80 L
0 - 500 rpm
5 or 6 pcs
22000 gcm
370 W
HEB-100L
88 x 65 x 280 cm
100 L
50 - 900 rpm
5 or 6 pcs
22000 gcm
370 W
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
BIOTECHNOLOGY & LIFE SCIENCE
JACKETED GLASS REACTOR
69
SVSLABS
USA
PHYSIC EXPERIMENTAL SETUP
DEC-01
MFM-01
INSTRUMENTATION
Model
70
Description
PC-101
PCA-01
Features
MFM-01
Magnetic Field
Measurement
Apparatus
The experiment consists of two coils, constant current power supply and Gaussmeter. The Gaussmeter
probe is mounted on a rail with a scale. It can move smoothly and precisely for measurement of magnetic
field along the axis of coils
DEC-01
Study of Dielectric
Constant
It has two individually spring loaded probes and is mounted in a suitable stand, which also holds the sample
plate. To ensure the correct measurement of sample temperature, the RTD is embedded in the sample
plate
PC-101
Planck’s Constant
Experiment by
Photoelectric Effect
The experiment consists vacuum photo tube as photosensitive device, halogen tungsten lamp 35 W as light
source, color filter ranges from 460 - 635 nm, regulated voltage power supply to accelerate voltage, digital
nanoammeter to measure low current and an optical bench with scale length of 400 mm
PCA-01
Study of Planck’s
Constant using LED
The experiment consists of current meter with highly stable current source, an oven with built in RTD sensor
and variable voltage source up to 2 V
FH-3001
Frank Hertz Experiment
The experiment consists of Argon filled tetrode, filament power supply and multirange digital ammeter
DFP-RM
Four Probe Experiment
The experiment consists of four probe arrange, an oven up to 200°C, Ge crystal wafer, RTD sensor,
multi-range digital milivoltmeter, constant current generator and built in oven power supply
MRX-01
Measurement of
Magnet - resistance
It has four probe arrangement with individually spring loaded probes mounted on PCB strip, Ge crystal
sample, digital milivoltmeter and constant current power supply, electromagnet and digital Gaussmeter
ESR-104
Electron Spin
Resonance
Spectrometer
The experiment consists of Helmholtz coils with an attachment ESR sample and R.F. oscillator ranges from
10 MHz to 19 MHz
QTX-01
Quinck’s Tube Method
The experiment consists of Quinck’ tube, electromagnet, constant current power supply, digital Gaussmeter,
travelling microscope with substance provided
HLT-111
Magnetic Hysteresis
Loop Tracer
The setup includes long solenoid, power supply with the panel meter directly calibrated in Gauss, sample
holder with a pick up coil and a set of samples (wire form)
SDC-02
Semiconductors Diode
Characteristic
The experiment displays forward and reverse characteristics of Ge, Si diodes and LEDs including Zener
diode characteristics
ELECTRONIC EXPERIMENTAL SETUP
SVSLABS also provides electronic experimental setup based on the verified experimental setup which including:
MD-1
• Study of a Transistor Amplifier (RC Coupled) Cum-Feed Back Amplifier
• Study of Multivibrators
• Study of Characteristic of Semiconductors Diodes
• Study of Hybrid Parameters of a Transistor
• Study of a Solid State Power Supply
• Study of Modulation & Demodulation with Built-in Carrier Frequency (Solid State)
• Study of a Basic Operational Amplifier
• Study of Astable & Monostable Multivibrators using Timer IC: 555
ML-01
• Digital Control System
• A.C. Servomotor, D.C. Motor, D.C. & A.C. Position Control System and D.C. Speed Control System Study
• Temperature Control System & PID Controller
• Linear Variable Differential Transformer
• Magnetic Levitation System
741-02
• Light Intensity Control System
• Potentiometer Error Detector
SM-03
• Linear System Simulator
KGC RESOURCES
SVSLABS
USA
LABORATORY INSTRUMENTS
Model
Description
Features
DMV-001
Digital D.C.
Microvoltmeter
•
•
•
•
DNM-121
Digital
Nanoammeter
• For the measurement of low currents down to 100 pA
• 100 nA to 100 μA full scale in 4 decade ranges with 100% overranging
• Accepts either polarity of input current through BNC connector
DPM-111
Digital
Picoammeter
• For the measurement of very low currents down to 1 pA
• 1 nA to 100 μA full scale in 6 decade ranges with 100% overranging
• Very low offset current
EHT-11
High Voltage
Power Supply
• EHT source for photomultiplier tubes and other radiation detectors
• Electronically regulated with fully solid state circuit and low power
consumption
• 0-200 V and 0-1500 V continuously adjustable range
• Fully protected against overload and short circuit by current limiting technique
For very low d.c. voltage measurement at very high impedance
1 mV, 10 mV, 1 V & 10 V with 100% over ranging
Low d.c. input bias current: 10 pA
Measures voltage down to 1 μV
ACM-102 or True RMS A.C.
ACM-103
Milivoltmeter
•
•
•
•
Measures true RMS voltage with accuracy 1%
20 mV, 200 mV, 2 V and 20 V voltage range
10 Hz to 200 kHz frequency range
ACM-103 has the additional feature of oscillator output (0-300 mV)
EMU-75 &
DPS-175
Electromagnet &
Power Supply
•
•
•
•
General purpose laboratory electromagnet with 75 mm pole pieces
Using two energizing coils consist of 13 Ohm
Equipped with IC regulated constant current sources with 0-3 A per coil
Protected against overload/short circuit
EMU-50 &
DPS-50
Electromagnet &
Power Supply
•
•
•
•
Low cost electromagnet for Hall Effect and Magnetic Susceptibility
50 mm diameter flat pole pieces with two energizing coils consist of 3 Ohm
Equipped with IC regulated constant current sources (0-4 A)
Protected against overload/short circuit
DGM-102
Digital
Gaussmeter
• Suitable for the measurement of magnetic field from 1 G to 2 kG
• 0-2 kG and 0-20 kG ranges
• Using Hall Probe (InAs) transducer
DGM-202
Digital
Gaussmeter
• Suitable for the measurement of magnetic field from 1 G to 20 kG
• 0-2 kG and 0-20 kG ranges
• Using Hall Probe (InAs) transducer
DGM-103
Digital
Gaussmeter
• Suitable for the measurement of magnetic field from 1 G to 40 kG
• 0-2 kG, 0-20 kG and 0-40 kG ranges
• Using Hall Probe (InAs) transducer
DGM-204
Digital
Gaussmeter
• Suitable for the measurement of magnetic field from 0.1 G to 40 kG
• 0-200 G, 0-2 kG, 0-20 kG and 0-40 kG ranges
• Using Hall Probe (InAs) transducer
PID-200CT
PID Controlled
Oven
• For testing of electronic components & study of temperature transducers etc
• Using PID configuration to control up to 200°C with RTD (A class) sensor
• 25 (I.D) x 100 (H) mm of heating chamber dimension
TVM-02
Travelling
Microscope
• True achromatic objective with 7.5 cm focussing distance from object
• 10x Ramsden Eyepiece with fine cross wire provided
• Heavy casting bed with levelling screws
TVM-03
Travelling
Microscope
•
•
•
•
True achromatic objective with 7.5 cm focussing distance from object
10x Ramsden Eyepiece with fine cross wire provided
Heavy casting bed with levelling screws
Scales and verniers are made of lifetime stainless steel
PS-12
Regulated Power
Supply
• General purpose low cost power source for analog and digital IC’s
• +5 V, -5 V, +12 V and -12 V fixed voltage output
• Internally protected by over-current and thermal shutdown
FG-01
Function
Generator
• Square, sine and triangular output up to 2 MHz in six ranges
• 0-3 V (p-p) amplitude with 50 Ohm output impedance
PRODUCTS CATALOG
EMU-50,DPS-50
INSTRUMENTATION
DMV-001
DGM-204
PID-200CT
TVM-03
www.kgcresources.com | www.kgcscientific.com
71
VENCON TECHNOLOGIES
USA
BATTERY ANALYZER
The UBA5 comes with two battery input channels under full independent
software control. UBA5s can be combined for more channels or higher
currents, or customized for lower currents.
INSTRUMENTATION
Batteries that can be tested
The Ultimate Battery Analyzer (UBA) is a professional battery
analyzer that uses the versatility and power of your PC. It
tests all battery chemistries from single cells to 20V (or more)
and from 20mAh to over 120Ah. The UBA connects to the
serial port of your PC (or USB with adapter) and will analyze,
charge, cycle and recondition (if possible) your batteries. Its
two channels, each with their own programmable load and
charger, can operate independently or in unison for higher
current.
• All test results, including the battery voltage and current
(and optional temperature), are stored in a standard data
file for future reference, analysis or comparison. This
enables the viewing and printing of any previous test
results along with the charge and discharge graph.
• Connect your battery to the UBA and tell it the type of
battery being tested. The software selects the optimum
discharge and charge current, depth of discharge, and
charge method. Of course, you can override any of these
settings. The UBA will then analyze your battery and
record to disk all the test results.
• As part of its advanced test procedures the UBA
provides battery test status information in real time. At
the conclusion of the test, a host of performance data
including battery capacity, energy, and midpoint voltage
are displayed and a hard copy generated.
• The UBA can test the battery with a current-time profile
that simulates actual use. This increases the analysis
accuracy over fixed current units.
• With its industry standard banana jacks, the UBA
connects directly to batteries or it can use any of the
many battery cups already available.
• Analyzers that allow changing the battery parameters are
the most flexible and do not become obsolete when new
battery types are introduced. Battery voltage, current, and
chemistry can be quickly changed with the UBA.
• The UBA has no display and no keyboard. It doesn’t need
any. Everything is controlled by your PC. This elegant
solution gives you full control over the battery analysis.
• The UBA is designed to link together with other UBAs to
create any size test station. No additional cables or S/W
required.
Vencon Technologies has achieved international recognition
for its battery testing products. A partial list of our satisfied
customers include:
o Energizer Power Systems
o Sony Electronics
o Siemens Medical
72
KGC RESOURCES
Chemistry
Lithium-ion/polymer/iron phosphate, NiCd, NiMH, lead acid
& all primary cells
Voltage
Two ranges: 0 to 6.5V & 0 to 24V (accuracy ±0.2%)
• Li-ion cells: 1 to 5 cells in series
• NiCd, NiMH: 1 to 16 cells in series
• Lead acid: 1 to 9 cells in series
Capacity
20 mAh to over 120 Ah
Internal Load (one per channel)
Type
Programmable constant current or pulse discharge
Current
12 mA to 3A in 12 mA increments (6A with both channels
combined)
Load
termination
Cuts off voltage, maximum time, maximum capacity, or
temperature with optional temperature probe
Power limit
45W (90W with both channels combined)
Accuracy
±0.5% reading ±2mA
Resolution
0.1 mAh
Type
Programmable constant current, constant voltage, duty
cycle, or any combination
Current
1 mA to 2.0 A
Charge
termination
Maximum time or capacity, minimum current (for constant
voltage charging) peak/deltaV (for NiCd & NiMH) and
temperature (absolute or rate of change with optional
temperature probes)
Internal Charger (one per channel)
Miscellaneous
Battery
input
Banana connectors (two pairs of cables with alligator clips
included)
Accessory
ports
Two. Allows expansion with analog inputs and digital
outputs lines
Power input 15 to 26VDC, 4.5A max
Size, weight 130mm x 170mm x 75mm (WxLxH), 820g
Magnetic Temperature
Probe
Temperature Probe
Accessories:
• Temperature probes (for
battery temperature
monitoring & charge
termination)
• Two opto isolated digital
outputs under programmable
control
• Technical reference manual
(includes schematics & the
communication protocol)
VENCON TECHNOLOGIES
USA
EXTENDED BATTERY ANALYZER
As the demand on batteries grow, manufactuers are These extended voltage UBA5s are a customized version of our regular
responding by building battery packs with increasing higher UBA5s where the battery inputs have their maximum voltage extended and a
voltages and more capacity.
separate input is provided for a charge power supply.
The easiest method increase the current and power handling
capability of the UBA is to simply parallel the two channels
on the UBA5. This doubles the UBA5s capability. In the photo
below a channel combiner adapter is used to parallel both
UBA5 channels allowing a discharge rate of 6A. This test is
more demanding of the battery and will give more accurate
results.
UBA5-EP44 (30V UBA5)
Chemistry
Battery Rated
Voltage
Number of Cells
Lithium Ion or Polymer
37V
10
Lead Acid or Gel Cell
36V
NiCd or NiMH
30V
18
25
60V UBA5 & 70V UBA5
Chemistry
Battery Rated
Voltage
Number of Cells
Lithium Ion or Polymer
51.8V
14
Lead Acid or Gel Cell
48V
NiCd or NiMH
43.2V
24
36
70V UBA5 can be used for 16S li-poly batteries.
Relay Modules
With a relay box, your UBA5 can control an external circuit. You can commands
to open or close the relay into the battery analysis program. For example, you
can have the relay close the contacts to initiate a battery discharge and have
it open the contacts when the battery reaches the cut off voltage. Or use
the UBA5 internal load and have the relay control a temperature chamber.
The relay modules are not a stocked item, but are made on a custom basis.
We can make them with any number of contacts (but one or two are the
most common). They can come with contacts of up to 50A and 240VAC. The
diagram below shows either a relay module controlling an external load.
INSTRUMENTATION
Portable drills now come with 30V batteries, both NiCD and
lithium ion. The latest UAVs (unmanned aerial vehicles),
such as the Raven RQ-11 are battery powered. The UBA5’s
capability can be extended in both current, power and voltage
to handle these larger batteries. We sell UBA5s with their
voltage range extended to handle higher voltage batteries.
For even more current and power you can combine the
channels of more then one UBA5. In the photo below we
connected four UBA5s together in order to to give us a
discharge ability of 24A with a 360W limit and 16A of charge
current. We used that capability to test a 2.3Ah 19.4V battery
at 8C. We could have gone to 10C discharge by adding a bit
of series resistance (longer wire).
Of course purchasing multiple UBA5s isn’t very cost effective,
but it’s nice to know that if you already have the UBA5s, you
can combine them for higher currents and power.
50A High Current Load Module (HCLM rev3)
The High Current Load Module allows discharging a battery at up to 50
Amperes and 60V. It works in conjunction with a load that you supply and a
UBA5. Under control of the UBA it electronically connects and disconnects
the load and measures and records the load current. For the load, you can
use automotive lamps, power resistors or an active load. With the HLCM you
can determine the capabilities of your battery under heavy load.
HCLM module
The Channel Combiner Adapter combines two UBA5 battery inputs
allowing parallel channel charging and discharging which doubles
the available current.
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
73
NUVANT SYSTEMS
USA
POTENTIOSTAT/GALVANOSTAT
EZstat-Pro
Advantages:
• Customizable operating ranges
• Versatile potentiostat/galvanostat programming
• Customized software upgrades
• Additional I/O ports for control of peripheral
devices
Model
Applications:
• Corrosion studies
• Cyclic voltammetry
• Chronopotentiometry
• Pulse voltammetry
• Fuel cells, batteries, photovoltaics
EZstat-Basic
EZstat-Pro
EZstat-Pro LC
Cell Control
INSTRUMENTATION
The EZstats are ideal for electroanalytical
chemistry, battery and capacitor testing,
electrocatalysis, photoelectrochemistry and high
voltage anodization. The wide potential/current
ranges and a powerful menu-driven interface
also enhance methods development. Opensource LabVIEW™instrument drivers enable
integration of the EZstat with end-user software
applications.
Compliance Voltage
±25 V
Max Output Current
±1 A
±10 mA
Rise Time
45 μs for 1 Ohm load (0%-100% signal)
Slew Rate
0.2 V/μs
Bandwidth
8 kHz (-3 dB, 1 Ohm load)
Applied DC Potential
Ranges
Applied Potential
Resolution
1 (±2.5 V)
1 (±10 V)
1.2 mV
0.3 mV
< 0.4% FSR
< 0.04% FSR
The EZstats provides precise current control over
5 orders of magnitude, up to 1 ampere. In addition
to step and triangular potential wave functions,
square and sine wave forms are available. A
front panel external input allows use of external
function generators.
Current Autoranging
In Galvanostat Mode
Applied DC Current
Ranges
4 (±100 μA, ±1 mA, ±100 mA, 4 (±1 μA, ±10 μA,
±1 A)
±100 μA, ±10 mA)
EZstat-Basic
±1 A (±2.5 V), 2.4 nA resolution: Scan rates up
to 0.1 V/s.
Best Applied Current
Resolution
60 nA, 0.06% 3 nA, 0.003% 40 pA, 0.004% of
of FSR
of FSR
FSR
Applied Current Accuracy
0.35% of FSR
EZstat-Pro
±1 A (±10 V), 610 pA resolution: Scan rates up
to 100 V/s.
EZstat-Pro LC
±10 mA (±10 V), 40 pA resolution: Scan rates
up to 100 V/s.
EZstat-HV
1A potentiostat with up to 25 V vs. reference.
Ideal for arcanodizing
EZware software
EZware controls the EZstat through a LabVIEW™
Graphic User Interface.
The EZstat package includes:
1. User friendly EZware software
2. Online EZstat manual
3. USB connection (up to 5 per computer)
4. Free software upgrades
5. Open-source LabVIEW™ drivers
Applied Potential Accuracy
0.03% of FSR
0.04% of FSR
Input Bias Current
500 pA
Input Impedance
250 GΩ parallel to 3 pf
Maximum Update Rate
100 ms
4 μs
Maximum Scan Rate
0.1 V/s
100 V/s
IR Compensation
External Control
Manual, Potentiostat Mode 10 None, Low Current
mA - 1 A Range
Device
None
1 AO, 1 AI, 2 DO
Potential Measurement
Measured DC Potential
Ranges
2 (±50 mV,
±10 V)
2 (±50 mV, ±10 V) Autoranging
Resolution
12 μV, 1.2 mV
(0.03%,
0.01% of FSR)
3 μV, 300 μV (0.006%, 0.003% of
FSR)
Accuracy
0.15% or
0.08% of FSR
0.08 or 0.03% of FSR
Current Measurement
Measured Current Ranges
Galvanostat:
4 (±100 μA, ±1 mA, ±100 mA,
±1 A)
Potentiostat:
4 (±1 μA, ±100 μA, ±10 mA,
±1 A )
Galvanostat:
4 (±1 μA, ±10 μA,
±100 μA, ±10 mA)
Potentiostat:
4 (±1 μA, ±10 μA,
±100 μA, ±10 mA)
EZstat potentiostat/galvanostat electrochemical
instruments:
15 nA to 1 A
3 nA to 1 A
3 nA to 10 mA
• 250 kS/s aggregate (125 kS/s per channel): Potentiostat Min to Max
Electrochemical Impedance Spectroscopy to • 5-lead cable (3 electrodes, sense & ground)
10kHz even on large bias voltages
• LabVIEW EZware software controls auxiliary digital and analog I/O including
thermocouple inputs, frequency counter and digital synchronization
74
KGC RESOURCES
USA
EZstat-HV
EZstat-HV electrochemical instrument: High-voltage Potentiostat delivers up to
1.0 A at up to 25 V vs. the reference electrode. The 4-electrode cable accommodates
working, counter, reference electrodes, and a ground cable. Manually controlled cell
voltage. Current vs. time is acquired and displayed in real time at 10 points per
second. The EZstat-HV has two auto-current ranges: 0 – 100 mA and 0 – 1 amp.
This potentiostat is ideal for oxide layer preparation by high-voltage anodization.
Duostat Bipotentiostat – galvanostat: 25 V compliance. Disc electrode ranges: 1 µA to
1A (±10 V); Scan rates up to 100 V/s. Ring electrode ranges: 1 µA to 2 mA (±5 V). Includes
5-electrode cable and EZware software with free upgrades forever.
Disc electrode
±1 µA (610 pA resolution) Duostat with power supply
±100 µA (6.7 nA resolution)
Model
±10 mA (610 nA resolution)
±1 A (34 µA resolution)
Compliance Voltage
Ring electrode
Max Output Current
±1 µA (60 pA resolution)
±100 µA (6 nA resolution)
±2 mA (120 nA resolution)
Rise Time
Duostat
Duostat
Cell Control
±25 V
Working Electrode 1 (WE1, Disc) ±1 A, Working
Electrode 2 (WE2, Ring) ±2 mA
45 μs for 1 Ohm load (0%-100% signal)
Slew Rate
0.2 V/μs
Bandwidth
8 kHz (-3 dB, 1 Ohm load)
Applied DC Potential
Ranges
1, Disc (±10 V) 1, Ring (±5 V)
Applied Potential
Resolution
Applied Potential Accuracy
Impedance Spectroscopy Software
Data Acquisition Features The NuVant
EZware-EIS software package activates
Electrochemical Impedance Spectroscopy
on the EZstat-Pro, Powerstat-05 and
-20 potentiostat/galvanostats. EZwareEIS exports the impedance data to a file
format to accommodate free third party EIS
analysis software. EZware-EIS is a userfriendly interface that allows selection of
the proper scanning parameters, collect the
impedance spectra, display data in Nyquist
and/or Bode plots and export data in the
proper data format for use in EIS analysis
software.
• Accommodating instruments: EZstat-Pro,
Powerstat-05, Powerstat 20
• Frequency range: 10 mHz to 10 kHz
• Frequency resolution: 0.02%
• Input range: 10V
• AC amplitude: 60µV to 200mV in
potentiostatic mode
• AC potential resolution: 6µV
• Current range: EZstat-Pro 3nA to 1 A,
Powerstat-05 0.1mA to 5A
• Built in digital filtering
PRODUCTS CATALOG
0.3 mV, Both Electrodes
< 0.04% Full Scale Range (FSR), Both Electrodes
Current Autoranging
In Galvanostat Mode
Applied DC Current Ranges
4 (±100 μA, ±1 mA, ±100 mA, ±1 A)
Working Electrode 1
Applied Current Resolution
by Range
±100 μA: 3.0 nA (0.0030% of FSR), ±1 mA: 30 nA
(0.0030% of FSR), ±100 mA: 3.0 μA (0.0030% of FSR),
±1 A: 34 μA (0.0034% of FSR)
Working Electrode 1
Applied Current Accuracy
by Range
±100 μA: 0.032% of FSR, ±1 mA: 0.032% of FSR, ±100
mA: 0.032% of FSR, ±1 A: 0.034% of FSR
Input Bias Current
500 pA
Input Impedance
250 GΩ parallel to 3 pf
Maximum Update Rate
4 μs
Maximum Scan Rate
100 V/s
IR Compensation
Manual, Potentiostat Mode 10 mA - 1 A Range
External Control
INSTRUMENTATION
NUVANT SYSTEMS
1 AO, 1 AI, 2 DO
Potential Measurement
Measured DC Potential
Ranges
2 (±50 mV, ±10 V) Autoranging
Resolution
3 μV, 300 μV (0.006%, 0.003% of FSR)
Accuracy
0.08 or 0.03% of FSR
Current Measurement
Measured Current Ranges
Potentiostat Min to Max
Galvanostat WE1: 4 (±100 μA, ±1 mA, ±100 mA, ±1 A)
Potentiostat WE1: 4 (±1 μA, ±100 μA, ±10 mA, ±1 A )
Potentiostat WE2: 3 (±1 μA, ±100 μA, ±2 mA )
Electrode 1: 3 nA to 1 A Electrode 2: 3 nA to 2 mA
www.kgcresources.com | www.kgcscientific.com
75
NUVANT SYSTEMS
USA
POTENTIOSTAT/GALVANOSTAT
Model
Powerstat-05
Powerstat-20
Cell Control
Compliance Voltage
USA ±25 V, IEC ±15 V
±10 V
Max Output Current
±5 A
±18 A
45 μs for 1 Ohm load
(0%-100% signal)
60 μs for 0.2 Ohm load
(0%-100% signal)
Rise Time
Powertest
Powerstat-05
Slew Rate
0.8 V/μs
Bandwidth
6 kHz (-3 dB, 1 Ohm load)
Applied DC Potential
Ranges
Powerstat-02
Applied Potential
Resolution
INSTRUMENTATION
In addition to step and triangular potential wave
functions, square and sine wave forms are
available. A front panel external input allows
use of external function generators. Complex
waveform sequences can be built through the
recipe editor.
PowerWare
PowerWare controls the Powerstat through a
LabVIEW™ Graphic User Interface
1. User friendly PowerWare software
2. Online Powerstat manual
3. USB connection (up to 5 per computer)
4. Free software upgrades
5. Open-source LabVIEW™ drivers
76
KGC RESOURCES
0.3 mV
Applied Potential Accuracy
< 0.04% FSR
Current Autoranging
In Galvanostat Mode
Applied DC Current
Ranges
4 (±100 mA, ±1 A, ±3 4 (±100 mA, ±0.8 A, ±3 A,
A, ±5 A)
±18 A)
Best Applied Current
Resolution
3 μA, 0.003% of FSR
Applied Current Accuracy
The Powerstat and Powertest
series of instruments are high performance
potentiostat/galvanostat instruments capable
of delivering up to 18 amps with options for
full process control of the electrochemical
system. These instruments are ideal for high
current electrosynthesis, fuel cells, complex
battery charge discharge cycling and more.
The wide voltage and current ranges coupled
with a powerful menu-driven interface
enhances end-user methods development.
Open-source LabVIEW™ instrument drivers
enable integration of the Powerstat and
Powertest instruments with end-user software
applications.
1 (±10 V)
15 μA on the +/-100 mA
range
0.35% of FSR
±100 mA: 0.10% of FSR,
±0.8 A: 0.053% of FSR,
±3 A: 0.037% of FSR,
±18 A: 0.033% of FSR
Input Bias Current
500 pA
Input Impedance
250 GΩ parallel to 3 pf
Maximum Update Rate
Maximum Scan Rate
IR Compensation
4 μs
4 μs
100 V/s
100 V/s
Manual, Potentiostat and Galvanostat
Modes, All Ranges
External Control
1 AO, 1 AI, 2 DO
Potential Measurement
Measured DC Potential
Ranges
2 (±50 mV, ±10 V) Autoranging
Resolution
3 μV, 300 μV (0.006%, 0.003% of FSR)
Accuracy
0.08 or 0.03% of FSR
Current Measurement
Measured Current Ranges
Potentiostat Min to Max
Galvanostat: 4 (±100
mA, ±1
A, ±3 A, ±5 A)
Potentiostat: 4 (±100
mA, ±1
A, ±3 A, ±5 A)
1 mA to 5 A
Galvanostat: 4 (±100 mA,
±0.8 A,
±3 A, ±18 A)
Potentiostat: 4 (±100 mA,
±0.8 A,
±3 A, ±18 A)
1 mA to 18 A
The Powerstat is controlled by PowerWare, a LabVIEW™-based software package that
allows for manual or automatic control through a user friendly graphical user interface.
In addition to user-defined sequencing for methods development, electroanalytical
techniques such as cyclic voltammetry, chronoamperometry, chronopotentiometry and
pulsevoltammetry are simplified by PowerWare macros. Open-source LabVIEW™ drivers
are included for integrating Powerstat control within pre-existing user applications.
Software customization for unique applications is available upon request.
NUVANT SYSTEMS
USA
FUEL CELL TEST STATION
The EZlab is equipped with:
A 5 cm2 Single cell fuel cell with thermocouple, 2 stainless steel humidifier bottles with
Nafion tubing interior and heated flexible transfer lines, 5 temperature controllers for
humidifiers, transfer lines and fuel cell, 2 pressure regulators (0-20 psi output, 0 – 500
psi input), 2 liquid filled gauges (0-30 psi), 2 high precision flow meters (0 – 260 sccm
air) and 2 5-way stainless steel flow meters for gas selection.
EZlab for Fuel Cell
Single-Cell Fuel Cell
Single-Cell Fuel Cell
The single-cell fuel cell test hardware is a simple design that allows for rapid testing
of membrane/electrode assemblies (MEAs) in NuVant Systems’ EZlab fuel cell test
station. Two aluminum end plates are bolted together to compress the MEA between
two graphite blocks. Serpentine flow fields are machined into the graphite blocks to
provide reactant and product flow. The single-cell fuel cell (flow field active area of 5
cm2) includes end plates, graphite flow field blocks, heating pads, insulated nuts and
bolts and a gasket. Thermocouple is upon request.
Array Fuel Cell
Temperature Controllers
INSTRUMENTATION
The EZlab is a fully-equipped fuel cell test station. The EZlab is designed for simplicity
and safety, enabling selection of reactant streams, temperature, humidity and flow
rate control for both anode and cathode. The EZlab can be controlled by EZstat Pro or
Powerstat potentiostat/galvanostats.
NuVant’s LabVIEW software controls the EZlab Station. This software is robust,
easy to use and understand, and powerful enough to control the test station over a wide
range of experimental and operating conditions.
Array Fuel Cell
Array fuel cell is a 25-electrode (1.27 cm² each) fuel cell with a counter flow field design
optimized for high throughput characterization of fuel cell components. The fuel cell has
a 100 cm² common counter electrode. The array side has five independent flow field
columns with five electrode spots each. A form-fitted insulation and heating system are
included.
CORROSION CELLS
ASTM D6208-07 Flat Plate Corrosion Cell
• O-ring cell with Delrin top
• Delrin cell-to-coupon clamp with ohmic connections
• Carbon rod counter electrode
• Ag/AgCl reference electrode and Luggin capillary tube
ASTM D6208-07
ASTM D1384
Dual Immersion
Corrosion Cell
Dual Immersion Corrosion Cell
• 8 carbon counter electrodes
• 2 Ag/AgCl reference electrodes and Luggin capillary tubes
• 3” magnetic stir bar
ASTM D1384 Immersion Corrosion Cell
• 12-C porosity aerator tube
• Spiral reflux condenser with glass rod to hold samples
• Flat bottomed glass cell with glass top and metal clamp
VOLTAMMETRY ACCESSORIES
• 3 mm glassy carbon disk electrode mounted in a CTFE cylinder (MF-2012)
• 1.6 mm platinum disk electrode mounted in a CTFE cylinder (MF-2013)
• 1.6 mm gold disk electrode mounted in a CTFE cylinder (MF-2014)
• 3 mm glassy carbon disk electrode mounted in a CTFE cylinder (MF-2012)
• 1.6 mm platinum disk electrode mounted in a CTFE cylinder (MF-2013)
• 1.6 mm gold disk electrode mounted in a CTFE cylinder (MF-2014)
• Electrode polishing kit (MF-2060)
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
77
BERKELEY SCIENTIFIC
USA
For more information on Berkeley Scientific, you may visit www.berkeleyxtl.com
BATTERY ANALYZER
BS-CT-3008-5V3A
INSTRUMENTATION
Model
Current Range
BS-CT-3008-5V3A
6.0 mA to 3000 mA
BS-CT-3008-5V1MA
0.002 mA to 1 mA
BS-CT-3008-5V10MA
0.1 mA to 10 mA
Standard Specifications
• Voltage range: 0 - 5 V programmable
• Eight independent programmable channels
• Each channel can set different working modes and functions independently
• The testing software is included to set various working modes to measure the
capacity and life cycle of all types of rechargeable batteries
• Working modes: constant current discharge, constant current charge, constant
voltage charge, rest, etc
• Limited threshold conditions include voltage, current, time, capacility, negative
voltage slope, etc
• During the test, the software will provide instructions and warnings for
assistance
• Different types of curves can be created by software base on user definition.
(Voltage-time curve, current-time curve, capacity-voltage curve, loops timescharge/discharge capacity curve, loops times-charge/ discharge efficiency
curve, etc)
• Forms of data are created by software. User can easily compare the
performance of the batteries tested in channels both visually and statistically
DC ELECTRONIC LOAD
Features:
• Six high speed operation modes: CC,CR,CV,CW,CC+CV,CR+CV
• Over current, over voltage, over power, over heating and polarity reversal
protection
• High-luminance vacuum fluorescent display (VFD) screen with two line, four
channel display
• Soft-start time setting, activating the power supply in accordance with the set
voltage value
• Battery test and short-circuit test functions
• Capable of rising edge and falling edge dynamic testing
• Supporting external trigger on either input or output
• Available range from 150 W to 200 kW upon request
Model
BS-M9711
BS-M9712
BS-M9712B
BS-M9712C
BS-M9712B30
Power
150 W
300 W
300 W
300 W
300 W
Current
0 - 30 A
0 - 30 A
0 - 15 A
0 - 60 A
0 - 30 A
Voltage
0 -150 V
0 -150 V
0 - 500 V
0 - 150 V
0 - 500 V
MASS FLOW CONTROLLER
BS-MFC-1
• Supply voltage: DC15V / 0.5A
• Accuracy: ± 2% FS
• Output signal: 4 - 20mA
• Control accuracy: ± 1% FS (CC)
• Computer Interface: RS485
• Linearity: ± 2% FS
• Zero: Digital Zero
• Working pressure range: 0.1 - 0.5 MPa
78
KGC RESOURCES
• Program features: multi-segment program set
flow rate (configurable)
• Working temperature: -10 to + 50°C
• Interface Type: According to customer’s request
• Flow range: 0 - 100, 200, 300,500 1000 SCCM
(ml / min)
• Default: N2/Ar/He calibration (other types of gases
are upon request)
BERKELEY SCIENTIFIC
USA
INTERNAL RESISTANCE TESTER
BS-BVIR
Features:
• The measurement method conforms to the GB/T11013-1996
and IEC61436:1998 standard which ensures the accuracy of the
testing data.
• Effective measurement of AC inter-resistance.
• Circuit with high integration has strong anti-interference
performance.
• LED display, the testing data is stable and easy to read.
• Automatic switch of voltage and inter-resistance range without
shifting gears.
• Wide measuring range, suitable for cells and battery pack whose
voltage is under 20 V.
• Portable, USB port supported.
Function
To measure internal resistance and
open circuit voltage
Voltage Measurement
0 - 20 V
Voltage Precision
0.1%
Resistance
Measurement
20mΩ\200mΩ\2000mΩ
Auto/Manual Switch
Resistance Precision
0 - 200mΩ (1%)
201mΩ - 2000mΩ (3%)
A/D
12 digits SAR Comparing
Sampling Frequency
1 kHz
Sampling Rate
1000 times/sec
Testing Current
< AC 20 mA
Response
Refresh 5 times per sec
Number of Comparator
10 sets
Data Calibration
100,000 entries
Calibration
1 x 100 mΩ resistor for calibration
INSTRUMENTATION
BS-BVIR
BS-IR-BK-300
BS-IR-BK-300
Testing Mode
A/C internal resistance
Testing Method
Four wire system measuring
A/C Current Frequency
1 kHz ±0.1 kHz
Voltage Measurement
D/C 0 V - 1.999 V; resolution 1 mV
D/C 2 V - 19.99 V; resolution 10 mV
Internal Resistance
Measurement
1 mΩ - 199.9 mΩ; resolution 0.1 mΩ
200 mΩ - 1999 mΩ; resolution 1 mΩ
Testing Alarm
Internal disqualified alarm
Clamper mode
Air plug, can be linked with clamper box or testing line
TESTING & FORMATION SYSTEM
BS-ATFS-BK-3512L/2
BS-ATFS-BK-3512L/2
PRODUCTS CATALOG
Description
Li-ion Battery Automatic Testing & Formation System
Number of Channels
512 channels
Current Range
Charge 0 - 5 V; Discharge 0 - 5 V; Resolution 1 mV
Battery’s Voltage
Range
Charge 0 - 4.5 V; Discharge 4.5 - 2 V
Charge Mode
Constant current, constant voltage
Charge Terminated
Conditions
Voltage, current, time, capacity
Discharge Mode
Constant Current
Protective Functions
Over voltage, lack voltage, over current, lack current, over capacity
protection
Software
Can record voltage,current,time,capacity such datas,with powerful
data process functions,provides multiple curve mode
Can create output consists of Excel, Word or MDB database
format file
www.kgcresources.com | www.kgcscientific.com
79
DAKOTA INSTRUMENTS
USA
ROTAMETER
Designed for low flow rates, these single tube flow meters from DAKOTA INSTRUMENTS
are precision instruments embodying the inherent simplicity, versatility and economy of the
classical variable area meter. They are particularly suitable for metering carrier gases in
chromatography, in manufacturing processes, liquid and gas measurements in laboratories,
pilot plants, flow and level indicating and controlling gases. Shipped completely assembled,
flow meters include standard mounting fittings in a choice of materials, side plates, thick
protective front shield and back plate, with or without control valves.
Specifications for Single Tube Flow Meter:
• Useful Flow Range: 10:1 minimum with one float and better than 20:1 with combination
of two floats installed in meters
• Standard Accuracy: ±2% of full scale (mm), 5% of full scale (direct reading)
• Calibrated Accuracy: ±1% of full scale
• Max Operation Pressure: 200 psig/13.8 bars (PTFE 60 psig/4.13 bars)
• Max Operation Temperature: 250°F/121°C (PTFE 150°F/65°C)
INSTRUMENTATION
Materials of Construction for Single Tube Flow Meter
Flow Tubes
Heavy walled borosilicate glass
Floats
Glass, Sapphire, 316 Stainless Steel, Carboloy® and Tantalum
Choice of Mounting
Fittings in Contact with
Fluids
• Aluminum, Black Anodized or
• Brass, Chrome Plated or
• 316 Stainless Steel
Side Panels
Aluminum, Black Anodized
Front Shield
Lexan® with longitudinal magnifier lens for enhanced reading resolution
Back Plate
1/8” thick white acrylics
O-Rings & Packing
• Buna-N® o-rings in aluminum/ brass model
• Viton® o-rings in stainless steel meters
• Viton® PTFE Kalrez® and EPR (optional)
Connections
1/8” NPT female inlet and outlet connections
Two choices of valves for Dakota Instruments rotameter:
• CVTM Valve Cartridges are designed for adjusting flow rates in applications where high resolution metering regulation is not essential.
• MFVTM flow capacities are offered to be matched with individual flow meter ranges
• Generally, for gas metering it is recommended that valves are positioned at inlets (bottom). For liquids, valves may be positioned either
at inlets or outlets (top). For vacuum services, valves must be mounted at outlets
CVTM Valve Cartridges:
MFVTM Valve Cartridges:
• The valve needle turns as it travels into or out of the valve orifice. in • The higher cost of MFV valves is justified whenever high
conjunction with the cylindrical cross section, the conical front tip
sensitivity control and resolution are desirable, particularly in
of the valve spindle increases or decreases the annular flow area.
conjunction with metering tubes of very low flowrates. MFV
The cartridge serves as a bubble-tight “shut-off” valve when the
flow capacities are offered to be matched with individual flow
tip of the valve spindle comes into a stop position against the valve
meter ranges
orifice.
• As the needle advances into and out of high precision
• The simple construction of CVTM valves incorporate a Valve Spindle
cylindrical orifices, the flat tapered surface of the needle
with conical ends and compound angles for optimal resolution.
gradually, without turning, uncovers the flow area.
Materials of Construction for Multi Tube Flow Meter
80
Features:
• Interchangeability of
flowtubes and floats.
Assorted flowtubes may
be used in conjunction
with a single mounting
frame.
• Simple panel mounting
- convertible to bench
mounting through use
of an optional acrylic
tripod base with built-in
spirit leveler and leveling
screws
• Easy calibration &
Specific gas usage order
Flow Tubes
Heavy walled borosilicate glass
Fittings in Contact with Fluids
Virgin PTFE PCTFE
Side Panels
Aluminum, Black Anodized
Front Shield & Back Plate
1/8” thick clear polycarbonate and white acrylics
O-Rings
PTFE
Connections
1/8” thick white acrylics
O-Rings & Packing
• Buna-N® o-rings in aluminum/ brass model
• Viton® o-rings in stainless steel meters
• Viton® PTFE Kalrez® and EPR (optional)
Connections
1/8” NPT female inlet and outlet connections
KGC RESOURCES
Specifications for Single Tube Flow
Meter:
• Standard Accuracy: ±2% of full scale
(mm) except 042 flow tubes
• Repeatability: ± 0.25%
• Useful Flow Ranges: 10:1 minimum
with one float
• Max Operation Pressure: 100
psig/6.7 bars
• Max Operation Temperature: PTFE
150°F/65°C
• Leak Integrity: Individually pressure &
leak tested & certified to a rating of 1
x 10-7 sccs Helium.
NEW ERA
USA
SYRINGE PUMP
NE-1000
DUAL-NE-1000X
NE-300
NE-1600
NEW ERA’s programmable syringe pumps provide an affordable
solution for the sophisticated dispensing and flow control
NE-9000
applications.
The NE-1000 Family of Syringe Pumps Features:
• Built for automation
• Infuses and withdraws
• Applications range from simple infusions to complex pumping programs
• Operates stand-alone or from a computer with programmable preset protocols
• Program up to 41 pumping phases: change pumping rates, set dispensing volumes, insert pauses, control and respond to external
signals, sound the buzzer.
• RS-232 and TTL logic control interfaces
Model
Description
Infusion Rates
NE-1000
Single Syringe
Pump
0.73 µl/hr to 2100
ml/hr
• Holds 1 syringe from the smallest size available up to 60 ml
• 35 lbs. at minimum speed, 18 lbs. at maximum speed
Features
DUAL-NE1000X
Continuous Dual
Syringe Pump
System
0.73 µl/hr to 2100
ml/hr
• Includes: 2 NE-1000X programmable single syringe pumps,
synchronization cable kit and two power supplies. (Dual Pump Plumbing Kit
is sold separately)
• Utilizes specialized dual pump synchronization cable kit to synchronize both
pumps.
• Flexibility for the pumps to perform either continuous flow, emulsification or
independently at any time.
NE-1002X
Microfluid
Syringe Pump
0.008 nl/hr to 2545
µl/min
• Holds 1 syringe up to 60 mL (140 mL partially filled)
• Advance Per Step: 4.252232 Nanometers
• Dispensing accuracy of +/- 0.5% and reproducibility of +/- 0.2%
NE-4002X
Two Channel
Microfluid
Syringe Pump
0.008 nl/hr to 2545
µl/min
• Holds 2 syringe up to 60 mL (140 mL partially filled)
• Advance Per Step: 4.252232 Nanometers
• Dispensing accuracy of +/- 0.5% and reproducibility of +/- 0.2%
NE-4000
Two Channel
Syringe Pump
1.436 µL to 7515
ml/hr
• Holds 2 different syringes from the smallest size available up to 60 ml each
of variable sizes
• 15 lbs (7.5 lbs/syringe) of linear force at top speed and about 100 lbs (50
lbs/syringe) at slow speeds
NE-1600
Six Channel
Syringe Pump
0.452 µl/hr to 1451
ml/hr
• Holds 2, 4, or 6 syringes of up to 140 ml each
NE-1800
Eight Channel
Syringe Pump
0.452 μL/hr - 415.9
mL/hr
• Holds 2, 4, 6, or 8 syringes of up to 10 ml each
NE-1200
Twelve Channel
Syringe Pump
0.45 µL/hr to 153.2
ml/hr
• Holds 2, 4, 6, 8, 10 or 12 syringes of up to 3 ml each
NE-8000
High Pressure
Single Syringe
Pump
1.733 µL/hr (1 mL
syringe) to 340.6
mL/min
• Holds 1 Syringe up to 140 mL. (200 mL partially filled)
• 200 lbs of linear force at slow speeds and 18 lbs at top speed
‘Just Infusion’ Syringe Pump
Peristaltic Dispensing Pump
NE-300
NE-9000
• Holds small or big syringes up to 60 ml (140 mL partially filled)
• Infuses continuously until the user stop the pump
• Variable infusion rate can be changed while pumping
• Maximum pumping rate of 1500 ml/hr with a 60 ml syringe
• Does not withdraw, volume target or have computer interface
• Remembers previous settings on power up
PRODUCTS CATALOG
LABORATORY EQUIPMENT
NE-4000
• Pump from a reservoir through replaceable continuous tubing
• 0.035 mL/min (0.002 oz*/min) to 775.2 mL/min (26.21 oz*/
min) with 3/16”ID tubing
• Measured dispenses for production filling of bottles
• Learn and Repeat™ for quick setup of production dispenses
• Slow Down and Anti-Drip modes improve control of dispensing
www.kgcresources.com | www.kgcscientific.com
81
NEW ERA
USA
OEM SYRINGE PUMP
The Customized OEM Syringe Pump Features:
• Computer controllable: networkable up to 100 pumps
• Stand-alone operation: pre-program the pump with a dispensing program, then
operate the pump from an attached Foot Switch, button, or I/O controller
• Chassis mountable: 9 1/2”L x 4”W x 4 1/8”H (24.13 x 10.16 x 10.5 cm)
• Operates from a 12V DC power source
• NE-500 holds 1 syringe up to 60 mL. 140 mL with long chassis
• NE-4500 holds 2 syringes up to 60 mL. 140 mL with long chassis
NE-4500 • NE-500’s infusion rates from 0.73 µL/hr (1 mL syringe) to 2100 mL/hr (60 mL
syringe)
• NE-4500’s infusion rates from 1.430 µL/hr (1 mL syringe) to 7515 mL/hr (60
mL syringe)
• Includes all the advanced functions and programming features of the NE-1000
Series
NE-500
OEM STARTER/NET KIT
LABORATORY EQUIPMENT
OEM-STARTER
OEM-NET
• Allows user to interactively communicate to
• Power supply and secondary cable only. For
the pump with a computer
use when networking two or more OEM NE-500
• Includes: power supply, Pump-to-PC network
syringe pumps together. Must use the secondary
cable (CBL-PC-PUMP-7) and user manual
cable in order to complete this application.
OEM-STARTER
SYRINGE HEATER
HEATER-KIT-1LG
HEATER-KIT-1LG
Primary Heating Pad
(9 cm L x 7.5 cm W)
HEATER-PAD2-1LG
HEATER-KIT-5SP
The syringe heater constantly monitors and displays the temperature measured
on the primary heating pad. While regulating the temperature, the Heat Clamping
will hold the set temperature. Thermo-Kinetic Mode reduces temperature swings
and tightens the Heat Clamping at the set temperature by dynamically adjusting
the heating by reacting to changes in the temperature measurement and rate of
temperature change.
HEATER-PAD2-1LG
HEATER-PAD2-5SP
HEATER-PAD3-1LG
Primary Heating Pad Second Heating Pad Second Heating Pad Third+ Heating Pad
(50 cm L x 1.5 cm W) (9 cm L x 7.5 cm W) (50 cm L x 1.5 cm W) (9 cm L x 7.5 cm W)
HEATER-PAD3-5SP
Third+ Heating Pad
(50 cm L x 1.5 cm W)
• Maximum temperature of 185°C
• Heater Kit includes control unit and primary syringe heater pad 1LG version or 5SP version
• Multiple syringe heater pads can be attached to the control unit, under restricted conditions
• Set point and other parameters retained in memory
• Digitally sets the heater set point
• Controller will heat the syringe and hold the set temperature using an on/off or Thermo-kinetic control algorithm
• Dual temperature sensors in primary heating pad
• Non-volatile memory of all operating parameters
• Alarm modes with multiple layers of protection to prevent temperature overrun
Syringe pump & syringe are not included with syringe heater.
OTHER ACCESSORIES
• Ana-Box™ - Analog Control Interface
• Electronic Valve Control Boxes
• Foot Switch
• Dual Pump Plumbing Kit
• Dual Pump Sync Cable
• RS-232 Primary Control Cable
82
KGC RESOURCES
• RS-232 Secondary Control Cable
• USB to RS-232 Converter
• Lockout Key
NEW ERA
USA
X Firmware Version Upgrade (Upgraded features to the standard NE-1000 firmware:
• Linear/Gradient Program Function
• Dual Pump Next Generation Continuous Pumping Mode
• Dual Pump Constant Flow Rate Gradient Pumping Mode
• Additional programming functions for more complex Pumping Programs
• Any syringe pump can be field upgraded except for the NE-300
X2 Firmware Version Upgrade (Upgraded features to the standard NE-1000 firmware:
Linear/Gradient Function Pump Features
• Includes all of the features of the X firmware version
• Increases the maximum number of programmable pumping phases from 41 to 340 Linear/Gradient Function Pump Features:
Model
Description
FW-1-X
X Firmware for stand-alone pumps (NE-1000 series)
FW-5-X
X Firmware for OEM style pumps (NE-500 series)
FW-1-X2
X2 Firmware for stand-alone pumps (NE-1000 series)
FW-5-X2
X2 Firmware for OEM style pumps (NE-500 series)
CBL-DUAL-3
Cable to connect 2 pumps to use the Dual Pumps Modes
FW-EXTRACTOR
PLCC chip extractor tool for replacing firmware
SYRINGE PUMP SOFTWARE
• Smooth linear increasing or decreasing gradient
pumping
• Set the start pumping rate, end pumping rate
and the time
• Pre-program multiple gradients plus any other
NE-1000 programming feature
Constant Flow Rate Gradient Pumping Mode:
• Set pump 1 linear function
• Pump 2 automatically pumps inversely to pump 1
• Sum of pump 1 and pump 2 flow rates remains
a constant rate
Model
Description
SYRINGE-PUMP-PRO-01
SyringePumpPro Software License for 1
SYRINGE-PUMP-PRO-02
SyringePumpPro Software License for 2
SYRINGE-PUMP-PRO-03
SyringePumpPro Software License for 3
SYRINGE-PUMP-PRO-04
SyringePumpPro Software License for 4
SYRINGE-PUMP-PRO-05
SyringePumpPro Software License for 5
SYRINGE-PUMP-PRO-06
SyringePumpPro Software License for 6+
LABORATORY EQUIPMENT
FIRMWARE UPGRADE
SyringePumpPro is an easy to use computer interface for programmable syringe pumps. It permits faster programming and operation of one
or more pumps. The user can configure and control multi-pump protocols, log pump activity and send commands to selected pumps.
Alternative license examples to purchase SyringePumpPro:
• Connecting 5 pumps to a single computer, at the same time, you will need one 5 pump license
• If you have 5 pumps connected one at a time, to one computer, a 1 pump license will do
• If you need to connect 5 single pumps to 5 separate computers, purchase five 1 pump licenses
Pre-program an entire production shift’s dispenses on an automated production line. Each dispense can be a different volume and flow
rate. Change flow rates during dispenses. Synchronize the start of each dispense with an external signal from other equipment, the operator
pressing the Start button, pressing a foot switch, or automatically after a time delay. Have the pump sound a beep to alert the operator at
any time.
Flow rates vary with the selection of syringe and the type of motor
and gearing in the pump. The following are example flow rates for a
sample of syringes. Higher flow rates are available.
Syringe Size
PRODUCTS CATALOG
Maximum Rate
Minimum Rate
0.5 µl
25.49 µl/hr
0.001 µl/hr
1 ml
53.09 ml/hr
0.73 µl/hr
5 ml
406.1 ml/hr
5.581 µl/hr
10 ml
600 ml/hr
8.244 µl/hr
20 ml
975.8 ml/hr
13.41 µl/hr
30 ml
1282 ml/hr
17.63 µl/hr
60 ml
2120 ml/hr
29.13 µl/hr
www.kgcresources.com | www.kgcscientific.com
83
EBERBACH
USA
LAB SHAKER
EBERBACH Reciprocating Lab Shakers are known for their durability, ease of use and ability to mix solutions well. Eberbach reciprocating
Lab Shakers are built for continuous duty with multiple options available.
E5850
LABORATORY EQUIPMENT
Model
84
E6010
Description
E6000
E6700
E6360
EL680
Features
E5650
Benchtop
Reciprocal Shaker
• Powered by a 1/17 hp Bodine DC motor which drives the platform through a filtered SCR controller
• The speed is continuously variable between a range of 20 - 240 osc/min
• Shake a load of 40 lbs at low speed and 20 lbs at maximum
• Variable speed with digital tachometer and countdown timer
E5850
Benchtop
Reciprocal Shaker
• Powered by a 1/17 hp Bodine DC motor which drives the platform through a filtered SCR controller
• The speed is continuously variable between a range of 20 - 240 osc/min
• Shake a load of 40 lbs at low speed and 20 lbs at maximum
E5900
Large Reciprocal
Shaker
• Can handle loads up to 100 lbs with the capability of running 24/7 while needing only routine
maintenance
• Powered by a 1/6 hp General Electric split phase motor
• Speed is continuously variable between a range of 60 - 240 osc/minute
E5903
Large Reciprocal
Shaker
• Can handle loads up to 100 lbs with the capability of running 24/7 while needing only routine
maintenance
• Powered by a 1/6 hp General Electric split phase motor
• Speed is continuously variable between a range of 60 - 240 osc/minute
• Variable speed with BLDC speed control, digital tachometer and countdown timer
E5905
Explosion Proof
Reciprocal Shaker
• For general purpose shaking in hazardous locations: Class 1 Group D, Class 2, Groups E and F up to
50 lbs (Explosion Proof)
• Speed is continuously variable between a range of 70 - 240 osc/minute
• Powered by a 1/4 HP explosion proof motor
• Motor is supplied with power leads through a conduit box, but without switch cord or carrier plate
E6000
Mid Range
Reciprocal Shaker
• Powered by a 1/6 hp GE split phase motor
• Speed control is continuously variable between a range of 60-260 osc/minute
• Max load carrying capacity of 50 lbs
E6005
Explosion Proof
Reciprocal Shaker
• Powered by a 1/6 hp GE split phase motor
• Speed control is continuously variable between a range of 60-260 osc/minute
• Max load carrying capacity of 50 lbs
E6010
Fixed Speed
Reciprocal Shaker
• Powered by a 1/6 hp GE split phase motor
• A two-speed unit, operating at either 180 or 280 osc/minute (+/- 5 osc/min) and controlled by a
three position switch
• Max load carrying capacity of 40 lbs
E6360
Hot Plate Shaker
• Powered by a 1/17 hp Bodine DC motor which drives the platform through a filtered SCR controller
• The speed is continuously variable between a range of 20 - 240 osc/minutes
• The heater is controlled by a three position switch on the front of the shaker, delivering 360 W at
LOW position, 720 W at MEDIUM and 1440 W at HIGH
• Max load carrying capacity of 40 lbs
• Incorporates a 10”x16” aluminum hotplate within the box carrier
E6700
Platform Rocker
• For preparations requiring agitation with minimal shear forces
• The 12”x12” platform has a nonskid surface and rocks 15 degrees each side of horizontal
• The speed is adjustable between 5-50 cycles/min
• 60 min front panel timer provided
• Handle loads up to 10 lbs
EL680
Wrist Action
Shaker
• For extracting, dissolving and emulsifying samples
• Mimics human wrist action: from very slow, gentle mixing to violent agitation
• This variable speed unit runs from 100-960 oscillations per minute
• Handle loads up to 9 lbs
KGC RESOURCES
EBERBACH
USA
E8000
Model
E8070
Description
E8015
E8122
E8018
Features
E8000
Waring Blender 4
Liter
• Heavy duty 3 HP motor with three running speeds of 16K, 18K, 20K rpm and Pulse
• 4L working capacity stainless steel container and stainless steel blending assembly with high
performance ball bearings
E8070
Waring Blender 2
Liter
• Heavy duty 1 HP motor that runs at 2 run speeds: 19000 & 23000 rpm
• 2L working capacity stainless steel container and 2 piece vinyl lid
E8122
Waring Blender 2
Speed & Timer
• 1hp heavy duty motor 2 speed at 18000 and 22000 rpm
• Can process up to 0.6-liters of material with high liquid content in the heat resistant glass container
E8150
Waring Variable
Speed Blender
• Built with a 0.4 hp solid state controlled motor which provides variable speed from 0-20000 rpm
• A Stainless Steel Container is also included with the purchase of this unit
E8015
Harsh Environment • Designed to use in dirty, oily, moist or corrosive atmospheres
Blender
• Features 1 1/2 H.P. totally enclosed, fan cooled capacitor start motor, with automatic reset thermal
protection
• Spindle speed is 11500 rpm
E8017
Explosion Proof
Blender
LABORATORY EQUIPMENT
HEAVY DUTY BLENDER
• Features a 1.5 hp explosion-proof motor with automatic reset thermal protection
• The explosion-proof motor is UL approved (applies to motor only) for Class l, Group C and D and
Class ll, Group F and G operation
• Designed to use a 4-Liter container
• Fixed Speed of 11500 rpm
ELECTRO-ANALYZER
Model
E1000
DC Output
• Two position DC output
Characteristics • 0-10V, 0-10A at each position
• Polarity reversible
EBERBACH’s Electro-Analyzer E1000
apparatus is the laboratory standard
for determinations of lead, nickel,
copper, zinc, antimony, cadmium and
other metals by the electro-deposition
process. The front panel protects the
apparatus from corrosive spillage
and fumes. No electrically corrodible
components are positioned where
material may fall into the cell and
alter results.
Integral Stirrer
• 620 rpm fixed
• Adaptable for use with rotating anode
Size & Weight
Height: 29.5 in (75cm), Width: 15.25 in (38.7 cm); Depth: 16.5 in (42cm),
Weight: 78 lbs (35.5 kgs)
Accessories
• Heater, thermostatically controlled
• Adaptable for use with rotating anode
• Agitator
Platinum
Electrodes
Stationary Type
• Anode: Cylinder Diameter: 1”; Cylinder Height: 2 1/4”; Overall Height: 5 1/2”
Mesh: 45; Weight: 25 gm
• Cathode: Cylinder Diameter: 2”; Cylinder Height: 2 1/4”; Overall Height: 5 1/2”
Mesh: 45; Weight: 39.5 gm
Rotating Type
• Anode: Cylinder Diameter: 1/2”; Cylinder Height: 2”; Overall Height: 5”; Mesh:
45; Weight: 14 gm
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
85
PM TAMSON
NETHERLANDS
VISCOSITY BATH
TV12LT
TV2500
TV12
TV2000
TV2500-AKV
PM Tamson viscometer and calibration baths are especially designed for tests which require ultra precise temperature control, or processes
which need to be followed visually, e.g. viscometry, thermometer and sensor calibration, density and reaction rate measurement
LABORATORY EQUIPMENT
Model
TV12
• The bath volume is 12 litres and has a opening of 244 x 75 mm
• Temperature range is from ambient to 120°C
• There are four openings for holding viscometers
• Temperature stability is better than ± 0.002 K
TV2000
• The bath volume is 20 litres and has a opening of 130 x 165 mm
• Temperature range is from ambient to 230°C
• There are three openings for holding viscometers. A cooling coil to work below ambient temperature is integrated
• Temperature stability is better than ± 0.01 K
TV4000
• The bath volume is 40 litres and has a opening of 260 x 240 mm
• Temperature range is from ambient to 230°C
• There are three openings for holding viscometers. A cooling coil to work below ambient temperature is integrated
and a bath drain included
• Temperature stability is better than ± 0.01 K
TV2500
• The bath volume is 25 litres and has a opening of 185 x 155 mm
• Temperature range is from ambient to 120°C
• There are four openings for holding viscometers
• A cooling coil to work below ambient temperature is integrated and a bath drain included
• Temperature stability is better than ± 0.02 K
TV2000-AKV
• The bath volume is 20 litres
• Temperature range is from ambient to 120°C
• AKV viscometers, vacuum pump, and measuring head are necessary accessories
• A cooling coil to work below ambient temperature are integrated
• Temperature stability is better than ± 0.01 K
TV12LT
• The bath volume is 15 litres and has a opening of 248x73 mm
• Temperature range is from -40°C to +20°C
• There are four openings for holding viscometers
• Cooling compressor is integrated
• Temperature stability is better than ± 0.014 K
TV4000LT
• The bath volume is 40 litres and has a opening of 260 x 240 mm
• Temperature range is from -40°C to +100°C
• There are seven openings for holding viscometers
• Cooling compressor is integrated
• Temperature stability is better than ± 0.02 K
TV7000LT
TLV25
86
Features
KGC RESOURCES
• The bath volume is 70 litres and has a opening of 260 x 240 mm
• Temperature range is from -40°C to +100°C
• There are seven openings for holding viscometers
• Cooling compressor is integrated
• Temperature stability is better than ± 0.02 K
• The bath volume is 25 litres and has a round opening Ø162 mm
• Temperature range is from -80°C to +60°C
• There are three openings for holding viscometers
• The bath includes a lid
• Temperature stability is better than ± 0.03 K
PM TAMSON
NETHERLANDS
HIGH TEMPERATURE BATH
TC16
• Bath volume is 16 L
• Temperature range is from ambient to 250°C
• Bath opening 180 x 210 mm
• Bath is made from stainless steel with a bath drain, lid and cooling coil to work
• Temperature stability is better than ± 0.02 K
TC40
• Bath volume is 40 L
• Temperature range is from ambient to 250°C
• Bath opening 420 x 275 mm
• Bath is made from stainless steel with a bath drain, lid and cooling coil to work
TB
• Thermostatic unit with adjustable mounting bracket
• Temperature range from ambient to 200°C
• Temperature stability is better than ± 0.03 K
• Unit is delivered without glassware
TC6B
• Bath volume is 6 L
• Temperature range is from ambient to 200°C
• Bath opening 148 x 120 mm
• Bath is made from stainless steel with a bath drain, lid and cooling coil to work
• Temperature stability is better than ± 0.03 K
TC20B
• Bath volume is 20 L
• Temperature range is from ambient to 200°C
• Bath opening 300 x 320 mm
• Bath is made from stainless steel with a bath drain, lid and cooling coil to work
• Temperature stability is better than ± 0.02 K
TC16
TB
Features
TC6B
LABORATORY EQUIPMENT
Model
TC20B
LOW TEMPERATURE BATH
Model
TLC10-3
TLC15-5
TLC80-14
PRODUCTS CATALOG
Features
TLC10-3
• Temperature range from -10°C up to 150°C
• The bath volume is 3 litres and the bath opening
measures 40 x 115 mm
• Made from stainless steel and delivered with a
lid
TLC15-5
• Temperature range from -15°C up to 120°C
• The bath volume is 5 litres and the bath opening
measures 100 x 150 mm
• Made from stainless steel and delivered with a
lid
TLC30-5
• Temperature range from -30°C up to 120°C
• The bath volume is 5 litres and the bath opening
measures 100 x 150 mm
• Made from stainless steel and delivered with a
lid
TLC40-14
• Temperature range from -40°C up to 20°C
• The bath volume is 14 litres
• The bath opening measures 290 x 200 mm
• Device is delivered with a lid
TLC80-14
• Temperature range from -80°C up to 20°C
• The bath volume is 14 litres
• The bath opening measures 290 x 200 mm
• Device is delivered with a lid
www.kgcresources.com | www.kgcscientific.com
87
JKEM SCIENTIFIC
USA
REACTION CONTROLLER
Model
INF-RC-T
INF-RC-TP
Description
Reaction controller with thermocouple input
Reaction controller with thermocouple
and pH input
Features
Syringe pump with thermocouple
input adds multiple reagents as a
function of time and temperature.
Logs all reaction
parameters to internal memory or
PC. Requires the selection of one
syringe and valve.
Syringe pump with thermocouple and
pH inputs adds multiple reagents as a
function of time, temperature and/or pH.
Logs all reaction parameters to internal
memory or PC. Requires the selection of
one syringe and one valve.
The Reaction Controller has all the features and runs all of the programs of the model SYR-1200 syringe
pump. In addition, the Reaction Controller has integrated thermocouple and pH inputs expanding its
capabilities to add reagents not just as a function of time, but also, temperature, and pH.
REACTION BLOCK
Single Temperature Reaction Blocks
LABORATORY EQUIPMENT
Features
Reaction blocks are an efficient way to provide uniform heating and cooling
for multiple reactions.
Stock blocks are listed below. Blocks for custom vial sizes and configurations
are also available.
• Temperature homogeneity of ±1° C
• Temperature range: -80 to 130° C
• Efficient mixing, even for heterogeneous mixtures
LAB REACTOR
JKEM Lab Reactors
Features KEM-Lab reactors are an
ideal addition to a research
laboratory.
• Compact design
minimizes the bench
space needed
• Temperature ramping
for both heating and
cooling
• Temperature range: -80
to 130° C
• Multiple styles: heating,
cooling, and reflux
NITROGEN GAS HEATER
NGH-230
JKEM’s Nitrogen Gas Heater regulates the temperature of nonflammable
gases providing an intrinsically safe heat source for safety critical laboratory
applications. An ideal instrument for solvent evaporation or for any heating
application where a traditional heater is unsafe or inconvenient to use.
Includes a digital temperature controller for 0.5° C regulation of outlet gas
temperature. A minimum flow rate of 1 liter/minute must be maintained when
power is applied to the heater. To avoid burning out the heater element, an
optional flow switch can be built into the heater to turn power off when gas
flow falls below the minimum safe level.
88
KGC RESOURCES
HYSC
KOREA
CIRCULATING WATER BATH
CWB-13M
CWB-20M
CWB-30M
Internal Dimension:
Internal Dimension:
340 x 210 x 180 mm 400 x 250 x 200 mm
13 Liter
CWB-13G
CWB-20G
Internal Dimension:
Internal Dimension:
450x 300 x 230 mm 340 x 210 x 180 mm
20 Liter
30 Liter
Internal Dimension:
Internal Dimension:
400 x 250 x 200 mm 450x 300 x 230 mm
13 Liter
Temp. range: -10°C ~ 100 °C
CWB-30G
20 Liter
30 Liter
Temp. range: -30°C ~ 100 °C
WATER BATH
• Using Digital PID
Controller with LED digital
display
• Equipped with overheat
protection sensor
• Time set function and
constant temperature
• Internal material made of
seamless stainless steel
WD-06
WD-06
WD-11
WD-06B
WD-23
WD-06B
Internal Dimension:
Internal Dimension:
Internal Dimension:
Internal Dimension:
240 x 140 x 150 mm 300 x 240 x 150 mm 515 x 330 x 150 mm 340 x 210 x 180 mm
6 Liter
11 Liter
• Using Digital PID Controller
with LED digital display
• Equipped with overheat
protection sensor
• Time set function and
constant temperature
• Internal material made of
seamless stainless steel
• Easy drainage by magnetic
fixed valve (drain port)
23 Liter
WD-11B
LABORATORY EQUIPMENT
• Using Digital PID Controller with LED digital display
• Magnetic drive circulator pump with maximum flow rate 30 liter/min
• Over temperature cut-off safety
• Internal material made from Stainless Steel SUS304
WD-23B
Internal Dimension:
Internal Dimension:
400 x 250 x 200 mm 450x 300 x 230 mm
6 Liter
11 Liter
23 Liter
Temp. range: Ambient ~ 100 °C
CIRCULATOR OIL BATH
Model
Internal Dimension (mm)
Capacity
Features
COB-7
COB-12
COB-25
300 x 160 x 150
330 x 220 x 170
400 x 350 x 180
7 Liter
12 Liter
25 Liter
• Using Digital PID Controller with LED digital display
• Over temperature cut-off safety
• Max temperature is up to 200°C
• Internal material made from Stainless Steel SUS304
• Internal circulation function by strong circulation pump
SHAKING WATER BATH
Model
SWB-25
SWB-35
SWB-55
Capacity
25 Liter
25 Liter
55 Liter
Features
PRODUCTS CATALOG
• Using Digital PID Controller with LED digital display
• Over temperature cut-off safety
• heating power up to 2300 W
• Temperature ranges from ambient to 100°C
• Internal material made from Stainless Steel SUS304
• Shaking mode is available
www.kgcresources.com | www.kgcscientific.com
89
HAHN SHIN SCIENTIFIC
KOREA
ROTARY EVAPORATOR
HS-2005S-N
HS-2005V-N
Model
HS-2005S-N
HS-2000NS
HS-2005V-N
HS-2000NS
HS-2001NS
Dimension
(lxwxh mm)
730 x 410 x 630
620 x 410 x 870
320 x 730 x 520
320 x 580 x 720
Weight
19.5 kg
19.5 kg
16 kg
17 kg
Condenser
Slant type condenser
Vertical type condenser
Slant type condenser
Vertical type condenser
Speed
LABORATORY EQUIPMENT
HS-2001NS
20 - 280 rpm
Flask Capacity
6 different types of flasks are attachable (from 50 ml to 3000 ml)
Heater Power
1000 W
Bath Capacity
4.3 liter
Temperature
Ambient - 180°C
Features
• Digital control panel for temperature and speed
• If the amount of water goes down under the certain threshold in the heating bath, the system automatically turns off
its power for the safety purpose
• Included Water Bath HS-3001 with PTFE coating and double jacketed body
CHILLER/COLD TRAP
HS-3003
HS-3005N
Cold Trap Bath
Cooling Water Circulator Bath
• Consists up to 4 liter
• Dimension : 250 x 510 x 510 mm
• Glass type
• Temperature down to -40°C
• Refrigerator power: 1/3 HP
• Refrigerant: 134 A
• Using FND Controller
• Power consumption up to 334 W
• Applied when the cold trap needs to be
done in extremely low temperature
• Quick freezing sample for freeze-drying
and reaction stop of the enzyme
• Consists up to 4 liter
• Dimension: 250 x 510 x 510 mm
• Refrigerant: 134 A
• Using FND Controller
• Flow rate up to 15 liter/min
• Temperature down to -20°C
• Using FND Controller
• Power consumption up to 334 W
• Refrigerator power: 1/3 HP
• Refrigerant: 134 A
• Using FND Controller
• As a source of cooling to the the
rotary evaporator
ASPIRATOR
Model
90
KGC RESOURCES
HS-3000
Description
Electric Aspirator
Features
• Bath is made of polypropylene
• Pump capacity: 18 liter/min x 2EA and bath capacity: 8 liter
• Motor Power 150 W
• Dimension: 320 x 240 x 330 mm
BERKELEY SCIENTIFIC
USA
For more information on Berkeley Scientific, you may visit www.berkeleyxtl.com
HUMIDITY CABINET
BS-DC-FCM60
BS-DC-FCM80
BS-DC-FCM100
BS-DC-FCM120
Model
BS-DC-FCM60
BS-DC-FCM80
BS-DC-FCM100
BS-DC-FCM120
PRODUCTS CATALOG
Capacity
65 Liter
84 Liter
115 Liter
128 Liter
Dimension
L x W x H (mm)
Features
Outer:
400 x400 x 475 mm
Inner:
398 x 375 x 400 mm
• Humidity range: 20-60%RH
• 1 pcs of shelves
• Humidity adjustable, energy saving design, digital LED display and
control
• 1.0mm thick steel body, rustproof paint, 4mm toughened glass,
import sensor
• Moisture absorbs continuously with sustention for 24 hours
Outer:
400 x400 x 620 mm
Inner:
398 x 375 x 545 mm
• Humidity range: 20-60%RH
• 2 pcs of shelves
• Humidity adjustable, energy saving design, digital LED display and
control
• 1.0mm thick steel body, rustproof paint, 4mm toughened glass,
import sensor
• Moisture absorbs continuously with sustention for 24 hours
Outer:
400 x400 x 760 mm
Inner:
398 x 375 x 685 mm
• Humidity range: 20-60%RH
• 2 pcs of shelves
• Humidity adjustable, energy saving design, digital LED display and
control
• 1.0mm thick steel body, rustproof paint, 4mm toughened glass,
import sensor
• Moisture absorbs continuously with sustention for 24 hours
Outer:
400 x400 x 865 mm
Inner:
398 x 375 x 790 mm
• Humidity range: 20-60%RH
• 3 pcs of shelves
• Humidity adjustable, energy saving design, digital LED display and
control
• 1.0mm thick steel body, rustproof paint, 4mm toughened glass,
import sensor
• Moisture absorbs continuously with sustention for 24 hours
www.kgcresources.com | www.kgcscientific.com
LABORATORY EQUIPMENT
• Suitable for storing: photographic & optic lens, cameras or digital photography, audiovisual, precise instruments, food, paper materials,
films, chemical and medical materials, etc
• Slip layer board make the interspaces adjustable
• Energy saving design: low electricity consumption resurgence, no heating, no condensation dripping, absence of fan noise
91
MTI
USA
ALUMINA CRUCIBLE
High purity alumina products can withstand very high temperature under reducing, inert or high vacuum condition.
They remain good chemical resistance under high temperatures, and have excellent wear and abrasion resistance.
Alumina products can withstand up to 1750°C.
Alumina Crucible Low Form Lid
Alumina Crucible Low Form 99.6%
Alumina Crucible
Low Form
Alumina Crucible Lid
Model
Top diameter
Bottom
(mm)
diameter (mm)
Height
(mm)
Capacity
(ml)
20
AL-1020
35
24
42
AL-1050
48
30
54
50
AL-1100
58
35
68
100
AL-1020-LID
35
20
AL-1150
66
40
80
150
AL-1050-LID
48
50
AL-1250
79
42
93
250
AL-1100-LID
58
100
AL-1500
100
60
110
500
AL-1150-LID
66
150
Alumina Boat Rectangular 99.8%
LABORATORY EQUIPMENT
Alumina Boat
Rectangular
Alumina Crucible High Form
Length
(mm)
Width
(mm)
Height
(mm)
Top diameter
(mm)
Height
(mm)
Capacity
(ml)
EQL54W38H20
54
38
20
EQL82W42H23
82
42
23
AL-2010A
25
25
10
AL-2050A
45
35
50
EQL50W40H20
50
40
20
AL-2050B
40
45
50
EQL50W20H20
50
20
20
AL-2100
40
95
100
EQL82-W42H23
82
42
23
AL-2250
60
100
250
EQL65W88H28
65
88
28
AL-2500
72
148
500
EQL65W65H30
65
65
30
EQL100W40H18
100
20
20
EQL100W20H20
100
40
18
Model
EQL90W65H30
90
65
30
EQL150W50H30
150
50
30
EQL300W40H20
300
40
20
Model
Alumina Crucible
High Form
Top
Capacity
diameter
(ml)
(mm)
Model
Model
Alumina Plate Rectangular 99.8%
Length
(mm)
Width
(mm)
Thickness
(mm)
AL-P220-220-6
220
220
6
AL-P150-80-6
150
80
6
AL-P102-25-6
102
25
6
AL-P90-65-6
90
65
6
Alumina Plates
GRAPHITE CRUCIBLE
Graphite crucible can withstand the high temperature, and has good resistance to chemical erosions and thermal shock. Especially graphite
crucible is ideal for the melting of aluminum, copper and other metals.
Graphite Crucible
Model
EQ-G40
EQ-GR009G
92
KGC RESOURCES
EQ-G40
EQ-GR009G
O.D.
1.5”
Top: 2.285”
Bottom: 1.81”
I.D.
1.25”
1.415”
Depth
3.75”
3.06”
Height
3.96”
3.435”
Temperature
399°C to 2760°C
Compressive
Strength
42.7 MPa
MTI
USA
QUARTZ BOAT
EQ-QB-0210
EQ-QF-0806
EQ-QB-6025
Quartz boat is made from high purity quartz ( 4N purity) with 1200°C working temperature.
Model
Dimension
Features
EQ-QB-0210
20 x 10 x 8 mm
Can fit in MTI GSL-1100X and OTF-1200X-S (1” O.D tube furnace)
EQ-QB-1017
100 x 17 x 10 mm
Can fit in MTI GSL-1100X and OTF-1200X-S (1” O.D tube furnace)
EQ-QB-1042
100 x 42 x 20 mm
Can fit in MTI 50 - 80 mm O.D tube furnace
EQ-QB-1062
100 x 60 x 26 mm
Can fit in MTI OTF1200-80 tube furnace (3” - 80 mm O.D tube furnace)
EQ-QB-3062
300 x 60 x 28 mm
Can fit in MTI OTF1200-80 tube furnace (3” - 80 mm O.D tube furnace)
EQ-QB-4284
420 x 80 x 40 mm
Can fit in MTI OTF1200-100 tube furnace (1000 O.D tube furnace)
EQ-QF-0806
218 x 162 x 50 mm
• Constructs a flat surface inside the processing tube where can put sample on
• Can be fit in MTI VBF-1200X-H8 Bench Top Vacuum Chamber Furnace
EQ-QB-1025
Diffusion of 1” wafer
processing
• Design for diffusion, oxidation and annealing 1” Si wafer
• Can fit in MTI OTF-1200X-S50 tube furnace (2” tube furnace)
EQ-QB-8025
Diffusion of 8” wafer
processing
• Can fit in MTI GSL1100X8 tube furnace
• Can carry 25 piece wafers of 8” diameter in each boat
EQ-QB-2025
Diffusion of 2” wafer
processing
• Can carry 25 piece wafers of 2” diameter x 0.5 mm thickness in each boat
• Can fit in MTI OTF1200-3 tube furnace (3” tube furnace)
EQ-QB-3025
Diffusion of 3” wafer
processing
• Can carry 25 piece wafers of 3” diameter x 0.5 mm thickness in each boat
• Can fit in MTI OTF1200-4 tube furnace
EQ-QB-4025
Diffusion of 4” wafer
processing
• Can carry 25 piece wafers of 4” diameter x 0.5 mm thickness in each boat
• Can fit in MTI OTF1200X6 tube furnace
EQ-QB-6025
Diffusion of 6” wafer
processing
• Can carry 25 piece wafers of 6” diameter in each boat
• Can fit in MTI GSL1100X8 tube furnace and Compact Vacuum Chamber Furnace EQ-VBF-1200X
EQ-QB-4025S
Diffusion of 4”X 4”
wafer processing
• Can carry 25 piece wafers of 4” x 4” square x 0.5 mm thickness in each boat
• Can fit in MTI OTF-1200X-5L, VBF-1200X-H8, and OTF-1100X-8.5 tube furnace
LABORATORY EQUIPMENT
EQ-QB-4025S
MORTAR & PESTLE
Translucent chalcedony with hardness 6-7. Handcrafted from the finest agate stone with shining polished grinding surfaces.
Agate Mortar & Pestle
Model
PRODUCTS CATALOG
Outside diameter (mm)
Inside diameter (mm)
Size (inch)
MTA-2
50
40
2
MTA-3
75
60
3
MTA-4
100
80
4
MTA-5
125
110
5
MTA-6
150
130
6
MTA-7
175
160
7
MTA-8
200
190
8
www.kgcresources.com | www.kgcscientific.com
93
LJUHV
TAIWAN
LJ-UHV COMPANY PROFILE
In order to support our customer towards sophisticate research especially in the area of Nanomaterial, Semiconductor, MEMS, PV, LED,
Surface Acoustic Wave Technology, Thin Film Coating, and Ultra High Vacuum Technology; we are currently forming business alliance with
LJ-UHV in providing the technology know how and equipment for the above endeavor. Aside from the precision equipment, we are supplying
a complete line of pure material, compound, and substrate in various purity for completion of our equipments.
NANOMATERIAL & SEMICONDUCTOR
LJ-UHV Site Work located in Taiwan
94
The customized systems are inclusive of: Pulse Laser Deposition Coating, Ultra High Vacuum Magnetron Sputtering, Continuous Vacuum
Magnetron Sputtering, Ion Sputtering, Electron Beam Evaporation, Thermal Evaporation with Plasma Assisted Vapor Deposition Equipment
and Induction Coupled Plasma. LJ-UHV Customized System are featured with Human-Machine Interface (HMI) controller for user convenience
in handling their system.
HIGH VACUUM CONFOCAL SPUTTERING SYSTEM
PROCESS CHAMBER
• Single layered inner chamber made of SUS304; while outer chamber is electropolished
• Rectangular type of chamber consists of front door with 4” view port
• Dimension: 380 D x 420 H x 380 W mm
• Removable top plate for confocal sputtering source
• 1” diameter of confocal sputter cathode inlet at top plate
• Main high vacuum port, low vacuum gauge port, capacitance pressure gauge port, rough
exhaust pumping port, and RGA spare port are installed at the rear plate
• Rectangular exhaust pumping port and spare view port are installed at the right side
plate
• Aluminum alloy type font access door with shutter shielding to permit uncoated viewing
window
• Rotation inlet port, substrate up/down inlet port, and thermal test port are installed at
the base plate
HIGH VACUUM PUMPING CONTROL
• High vacuum turbo pump with flow rate up to 400 l/sec equipped with air cooling
SUBSTRATE HEATER &
function
TEMPERATURE CONTROL
• Oil seal mechanical pump with flow rate up to 500 l/sec
• 4” dia. vacuum heating pipe
• Pump control using pneumatic system
• Max working temperature: 450°C
• PID temperature controller with digital display
VACUUM GAUGE CONTROLLER & DISPLAY
• Dual digital LED display with 5 set points relay (Low vacuum gauge from 760 torr - 10-3
SYSTEM CONTROL
torr while high vacuum gauge up to 10-3 torr - 10-8 torr)
• PLC control with 7” LCD touch screen
• Digital display for load-lock chamber (Low vacuum gauge from 760 torr - 10-3 torr)
• Auto/manual operation
• Graphic user interface
PRESSURE & FLOW CONTROL
• Vacuum pumping/venting control
• Mass flow controller to control inert gas and working gas
• Facilities monitor & safety control
• Process pressure controller to hold function for plasma ignition
• Process manual control
• Alarm message display
SPUTTER CATHODE & POWER SUPPLY
• Safety interlock
• Water cooling magnetron sputter cathode
• Plasma generator RF 300 W & auto match network
RACK & FOOT PRINT
• Plasma generator DC 1000 W
• 1250 L x 1000 W x 1800 H mm
• Sputter shutter pneumatic control
• Castor wheel with adjuster pads
KGC RESOURCES
LJUHV
TAIWAN
This system is specifically designed for thin film deposition solutions of SiC, SiNx, SiOx, and SiOxNy materials used in the manufacturing of
IC’s, MMICs, LEDs, LDs, VCSELs, and waveguides and MEMS devices of Si and GaAs substrates. It utilizes a capacitively RF coupling plasma
technology to independently bias the upper electrode and/or substrate for controlling the plasma density and ion energy. Reproducible
thermal uniformity using a calotto heater with thermocouple calibration with optimized uniform gas laminar flow stream provided by specially
designed shower head and pumping channels. This system is customized to optimize deposition rate, refractive index, film stress control,
yield, throughput, and device performance.
DEPOSITION CHAMBER/LOAD-LOCK CHAMBER
• Material made from aluminum alloy T6061
• Interior and outer surface are anodized to prevent corrosion by plasma
chemical
• Embedded heating water flow is fabricated into aluminum chamber wall to
control the reactor environment temperature
• 3 view ports of 2” dia. located at side walls for observation and diagnostics,
with plasma shielding to avoid RF power leakage
• Top/bottom door with manual opening/closing operation
• Door seal is designed as elastomeric seals
• 3 view ports of 2” dia. located at side walls for observation and diagnostics,
with plasma shielding to avoid RF power leakage
• Top/bottom door with manual opening/closing operation
• Door seal is designed as elastomeric seals
• Pumping neck is designed for maximum pumping efficiency
ETCHING CHAMBER PUMPING SYSTEM & VACUUM
MEASUREMENT
• Equipped with dry pump with corrosion resistant (800 lpm)
• Root pump system (250 m3/h)
• LJ APT-63, vacuum throttling valve, ISO 63 flange, with adaptive
pressure controller by stepper motor actuator
• Capacitance manometer with full scale range of 10 torr is mounted
on the reactor wall and will be monitored on the system (10 torr - 10
mtorr)
• Pirani vacuum gauge is mounted on the pumping neck and will be
monitored on the system (1000 torr - 1 torr)
• Compressed air distribution
ACCESSORIES FOR DUAL RF SOURCES’ SAMPLE STAGE
& SHOWER HEAD
• 4” shower head with capacitive parallel upper and lower sample stage
electrodes
• Wafer carrier which is made from graphite will be positioned on the 3”
dia. uniformly constant temperature stage
• Pre-fabricated carrier to accept up to 3” wafer
• Backside resistive heater (max 350°C) with PID automatic control on
the system to reach sample stage’s temperature uniformity
• The sample stage temperature is controlled accurately and constantly
during the process between ambient - 350°C within +/-3°C of the
set point
• The sample stage is shielded for plasma confinement and stability
that would allow only the carrier surface to be exposed to the plasma,
enhancing the plasma uniformity on the wafer surface and preventing
the deposition on the chamber environment
• Shower head of the upper electrode is designed to provide uniform
laminar gas flow across the surface of the wafer to achieve excellent
uniform mass transfer mechanism
• The area of the upper electrode is large enough so that the sputtering
of the upper electrode material is negligible
• The bias voltage of the upper electrode is driven by the RF generator
with air cooling system
• RF power supply (300 W output at 13.56 MHz) with remote setup/
readout digital control panel, coupled to an automatic match network
PRODUCTS CATALOG
PROCESS GASES DELIVERY SYSTEM
• Gas enclosure panel for all processing piping lines
• All piping lines are constructed from electropolished SUS316L
tube, orbital welded and VCR fittings
• Each gas lines consists of a metal sealed mass flow controller
and bellow sealed normal closed pneumatic actuator isolation
valves on both inlet and outlet
SYSTEM CONTROL/OPERATION MODE
• Industrial computer is used to control the system together with
PLC
• Graphic multi-tasking real time control/display software
operating for all sensors
• Multiple operation modes:
1) Manual
2) Automatic
3) Maintenance
4) Automatic process sequence generating and editing
• Automatic process sequences:
1) Auto-pump
2) Autovent
3) Multi-steps deposition and in-situ cleaning procedures
• Alarm history and process parameters history backup abilities
• Fully safety interlock mechanism for both hardware/software
• Authorities enactment
NANOMATERIAL & SEMICONDUCTOR
PECVD SYSTEM FOR DEPOSITION OF SiC, SiOx, SiNx
PLC System
View ports at the side wall
www.kgcresources.com | www.kgcscientific.com
95
LJUHV
TAIWAN
NANOMATERIAL & SEMICONDUCTOR
ELECTRON BEAM EVAPORATOR SYSTEM
This system is specifically designed for metal/non-metal film deposition process of R&D laboratory and pilot
plant production applications. Key performance features are including evaporation of uniform metal, dielectric,
and insulator films on a variety of substrate materials (metal, semiconductor, insulator). Additional features are
including versatility, ease of operation, and long term reliability for evaporation of single and multi-layer thin/
thick films.
DEPOSITION CHAMBER
• D type chamber with single layer made of SUS304, electropolished
• Welded on semi-rectangular pipes for cooling
• Front opening/closing door with automatic electro-magnetic lock/unlock
• Door seal is designed as elastomeric seal
• View port 4”dia. on the front door and optical reflector to permit unresisted
viewing of all installed deposition sources and substrate fixturing
• High voltage fittings, sweep signal, crucible index drive, E-Gun body cooling
and shutter drive feedthrough are provided at the base plate
• High vacuum valve, heating power feedthrough, thermocouple fitting
feedthrough, ion gauge head, fitting vent valve, vacuum gauge head and RGA
Substrate Stage
fitting are provided at the side wall of the chamber
• Gas inlet feedthrough, rotation drive, and quartz sensor feedthrough are
provided at the top plate
VACUUM PUMPING SYSTEM
• High vacuum turbo pump with the pumping speed up to 600 lps and
ultimate pressure up to 5x10-10 mbar is equipped
• Water cooling to cool down the turbo pump, power supply and
controller are provided
• LJ APT-63, vacuum throttling valve, ISO 63 flange, with adaptive
pressure controller by stepper motor actuator
• Rotary vane pump up to 800 lpm with roughing valve, bellow-sealed
open/close by pneumatic actuator, venting valve, anti turbulence
valve for delayed venting, foreline valve are installed
• Compressed air distribution
VACUUM GAUGES & CONTROLLER
• Dual channel digital display controller with RS232 interface; up to 5
set point to 3 units of sensor connection
• Measurement range from 1000 to 5x10-9 mbar (1000 to 5x10-4 for
low vacuum Pirani gauge and 5x10-3 to 5x10-9 mbar for high vacuum
hot ion gauge)
• Pre-fabricated carrier to accept up to 3” wafer
ACCESSORIES FOR SUBSTRATE STAGE
• Substrate carrier rotary driver with flange to connect the layer
thickness measuring system
• Indirect-drive gear motor via high performance rotary motion ferrofluid feedthrough
• Rotation speed from 5 - 20 rpm of single substrate carrier
• Backside quartz radiant heater arrays with reflector, deposition
shield (max 320°C)
• Vacuum step-down/isolation transformer to minimize the possibility
of the spurious glow discharges and feedback from E-Beam power
supply
ACCESSORIES OF PROCESS SOURCES
• Telemark rotatable multi-pocket sources
• Electron beam evaporator 6 kW
• Source with 270° deflection
• Angle gear drive base plate feedthrough for crucible index
• X and Y sweep signal feedthrough
• Rotating crucible with 4 pockets of 7 cc
• Variable high voltage unit and beam positioning control
96
KGC RESOURCES
PROCESS CONTROLLER/LAYER THICKNESS
MEASUREMENT
• Telemark deposition controller for layer thickness, rate, and
process monitoring
• Memory space for 9 sets of material parameters in conjunction
with 99 process sequences and 999 process steps
• Sequence routine for 100 sequence steps from material and
process parameters
• Up to 99 fold repeat routine for a process
• Process control by RS-232 interface
• Quartz sensor with 6 MHz oscillator
• With cooling piping liness and signal cables (adjustable height)
SYSTEM CONTROL/OPERATION MODE
• PLC based operation control with color touch screen HMI
interface
• Graphic multi-tasking real time control/display software operating
for all sensors
• Multiple operation modes:
1) Manual;
2) Automatic;
3) Maintenance
• Vacuum pumping/venting control
• Facilities monitoring and safety control
• Alarm message display. safety interlock and authorities
enactment
LJUHV
TAIWAN
This system consists of rapid thermal annealing capability, are multipurpose “cold wall” process ovens. It is ideal for R & D, process
development, and low to high volume production. Fully automatic production capability is available by in-line integration with die bonders,
by direct system integration into the die bonder, by cassette to cassette wafer transfer, and robotic system substrate handling. The main
application is void-free soldering and the generation of perfect flux-less solder joints. Perfect soldering by use of liquid flux or solder paste is
accomplished by the optionally available solder paste feature, protecting the original process chamber walls and vacuum system.
Due to the leak tight chamber design and stainless steel piping and fittings, a 5 x 10-6 mbar(Torr) vacuum can be achieved. The Helium
leak rate is only about 5 x 10-9 mbar l/s. The inert gas atmospheres can be as good as 1 ppm residual Oxygen. Processing under steady state
or pulsing pressure up to 2 bar (30 psi) is possible. The processing under reactive atmospheres enhances significantly the wetting properties
of non-virgin surfaces with oxide and organic contaminations. The key for void-free soldering is the perfect wet ability assisted by vacuum
prior to and during reflow and by mechanical impact to the liquid solder by pulsed pressure. Even the bottom side of an oxidized copper coin
placed on the heated plate is perfectly clean when exposed to Nitrogen, enriched with Formic Acid vapor (HCOOH) for very short time periods
at low temperatures between 150°C up to a maximum of 200°C. Similar results at higher surface temperatures can be obtained by safe
processing under pure Hydrogen with the dedicated Hydrogen safety feature. ArH2 plasma is the ideal surface cleaning method prior to and
during flux free reflow of electrolytic plated wafer bumps.
The aluminum process chamber with polished inner walls is accessed via a manually locking lid with viewing window made of safety
glass. The viewing window option can be an optical glass used either for laser based surface metrology or for high magnification microscope
based process monitoring. Lid and bottom are water cooled. The option of a program controlled motorized lid open/close and locking is
available. On the bottom side of process chamber there is an IR quartz lamp and cooling gas nozzle array. Each lamp is placed inside a
quartz glass tube sealing the IR lamp from chamber atmosphere. Also the lid can be equipped with an IR lamp array and cooling gas nozzles.
By offsetting the upper lamp array by 90° from the lower lamp array and multiple heater zone control the best temperature uniformity can
be obtained in both the X and Y directions over the heated area. The heated low mass plate, available in a variety of different materials, is
located above the lower field. It is heated by the radiant energy emitted by the IR lamps and cooled by the cooling gas flow against it. The PID
controller with control thermocouple located inside the heated plate controls precisely the IR lamp energy and cooling gas flow. The standard
material for heat plates is aluminum. Depending on the application, other materials are available including surface treated, CVD SiC coated
graphite, SiC, Poly Si, quartz glass, copper, metal mesh, etc.
For rapid cool down requirements such as solidification of the solder under vacuum as used to minimize the grain structure of the
solder joint or to “freeze” the perfect liquid solder ball shape formed under vacuum, a water cooled heated plate can be installed. The heated
plate is attached by quick release fasteners for easy replacement. For rapid ramping applications such as AuGe alloying on GaAs direct radiant
energy heating with low mass, wafer carriers and susceptor are available.
CHAMBER & COVER
• Rectangular SS304 chamber with double layer, water cooling
fabricated
• Chamber size: 230 x 230 x 25 H mm
• Consists of main exhaust port, rough pumping port, and vacuum
gauge port
• 20 mm dia. holes for quartz tube installation
• 1” temperature measurement hole
• Base pole consist of 200 x 200 mm
• Water cooliung top lift cover: 230 x 230 x 20 H mm
• 2” high vacuum view port
NANOMATERIAL & SEMICONDUCTOR
HIGH VACUUM REFLOW OVEN
VACUUM EXHAUST MODULE
• Rotary mechanical pump up to 500 lpm
• Consists of front end pneumatic control valve and pneumatic control
valve for exhaust buffering
• Digital vacuum gauge with pressure range from atmosphere
pressure to 10 x 10-3 torr
MASS FLOW CONTROLLER
• To control inert gas and working gas into chamber
• Equipped with pneumatic control isolation valve
• Hardware to read out data into PLC programming
Substrate Stage
PRODUCTS CATALOG
SYSTEM CONTROL/OPERATION MODE
• PLC programmable control with 10” color touch screen HMI
• Vacuum exhaust/vent control
• Mass flow control/working procedure control
• Programmable temperature control
• Alarm display and record; authority control, and interlock for safety
www.kgcresources.com | www.kgcscientific.com
97
LJUHV
TAIWAN
NANOMATERIAL & SEMICONDUCTOR
ICP-RIE SYSTEM FOR METAL, DIELECTRIC & SEMICONDUCTOR
98
This system is specifically designed for dry etching solutions of a wide variety of metals, dielectrics, and
semiconductor materials. It utilizes an Inductively Coupled Plasma (ICP) source to generate a high-density
plasma with a separate RF power supply to independently bias the substrate for controlling the ion energy.
Reproducible and uniform thermal control is achieved with active cooling/heating using mechanical clamping,
(helium) backside cooling, and a recirculating fluid electrode. The robust, reliable, production-proven ICP100 is customized to optimize smooth sidewall profile control, yield, throughput, and device performance.
LOAD-LOCK CHAMBER, PUMPING SYSTEM & VACUUM MEASUREMENT
• Single layer SUS304, electropolished chamber with manual open/close door with a view port
• Chamber dimension: 150 dia. x 100 H mm
• Manual loading of the wafer carrier onto loader finger stage
• Linear automatic magnetic (with manual override) vacuum transfer system for the transfer of the carrier
between the load-lock chamber and main vacuum chamber
Substrate Stage
• Up/down wafer lifter for accepting/releasing wafer from/onto carrier finger into process chamber
• Carriers for mounting 4” wafer or small irregular pieces
• 3” diameter view port for observing samples on manually open/close lid
• Roughing pump up to 300 lpm with vacuum level less than 5 x 10-4 torr
• Pneumatic control for roughing valve, purge/vent valve, foreline valve
• Vacuum gauge controller attached with Pirani gauge heads ranges from atmosphere pressure to 5 x 10-4
torr
ICP SOURCE CONSTRUCTION
ETCHING CHAMBER PUMPING SYSTEM
• Fabricated from a solid billet of 6061-T6 aluminum alloy and interior • Ceramic tube, 8” inner dia. and inductive coil assembly to high
surface anodized to prevent corrosion by chorine or bromine based density plasma source
• Forced air cooling for inductive coil assembly and ceramic
plasma chemical
tube
• Chamber dimension: 200 dia. x 130 H mm
• Process gases injected through gas shower head for uniform
• Door seal is designed as elastomeric seals
• Embedded heating/cooling water flow in aluminum chamber wall to plasma distribution
control the reactor temperature
• Two view ports with 2” dia., at side wall for observation and diagnostics, RF ETCHING POWER SUPPLY
• SEREN RF power supply (1 kW output at 13.56 MHz) with
with plasma shield to avoid RF power leakage
• Turbomolecular pump is corrosion resistant (400 lps) with nitrogen remote setup/read out digital control panel coupled to integrated
gas purge, water cooling, and power supply/read out control unit with automatic matching network
• Power range variable between 10 W to 1 kW
vacuum less than 5 x 10-6 torr
• Two stage rotary vane pump is corrosion resistant (660 lpm) with • Plasma density is more than 10 x 1011 cm3, minimum ion
energy: 10 eV
vacuum level less than 5 x 10-4 torr
• Vacuum throttling valve with adaptive pressure controller by stepper • Stable and uniform plasma over 4” wafer area, +/-5%
uniformity
motor actuator
• Capacitor manometer is mounted on the reactor wall and it is monitored • Output power remotely controlled by computer system
on the computer system
• Closed loop pressure control via throttling valve and capacitance PROCESS GAS DELIVERY SYSTEM
• Gas enclosure panel for all processing gas lines
manometer, process pressure controllable range 0.2 - 10 Pa
• Vacuum gauge controller with ranges from atmosphere pressure to 5 • Mass flow controllers integrated with data read out to PLC
programming
x 10-10 torr
• Corrosion resistance ion gauge head with ranges from 1 x10-2 to 1 x
10-9 torr and isolation valve are installed between reactor and ionization SYSTEM CONTROL/OPERATION MODE
• PLC/PC based industrial computer to control complete system
gauge head to prevent contamination and corrosion
• Pneumatic control consists of roughing valve, purge/vent valve, and • Graphic multi-tasking real time control/display software
operation for all sensors and drivers
foreline valve
• Multiple operation modes:
1) Semi-auto
RF BIAS POWER SUPPLY
• SEREN RF power supply (600 W output at 13.56 MHz with remote 2) Auto
setup/readout digital control panel and coupled to integrated automatic 3) Maintenance
• Automatic process sequence:
matching network
1) Auto-pump
• Output power is remotely controlled by computer system
2) Auto-vent
3) Auto-heat
SUBSTRATE STAGE COOLING
• Direct liquid Helium cooling of the substrate stage with manometer for 4) Auto transfer from load-lock to reactor chamber
5) Multi-steps etching and in-situ cleaning procedure
pressure monitoring
• Substrate electrode surface temperature is controlled by cooling water • Alarm history, process parameters, data logging, authorities
enactment, and fully safety interlock mechanism are provided
jacket
KGC RESOURCES
LJUHV
TAIWAN
CHARACTERISTIC
• Designed for pilot scale, experimental usage
• Suitable for Solar Cell, Laser, EMI
• Horizontal sputtering deposition
• Uniform gas flow conductance design
• High target utilization of magnetron cathode design
• Quick exchanging target design
• 19” TFT panel HMI
• Alarm history record
• DC & RF power safety interlock
In Line Sputter for CIGS Solar Cell
CUSTOMIZED EQUIPMENT ACCORDING TO CLIENT REQUEST
Sputter System
NANOMATERIAL & SEMICONDUCTOR
IN LINE SPUTTER SYSTEM
PLD+Sputter System
Crystal Puller
Lab Scale Thermal
Evaporation System
Confocal Sputter with Load-lock Chamber
Lab Scale PECVD
PRODUCTS CATALOG
www.kgcresources.com | www.kgcscientific.com
99
Was this manual useful for you? yes no
Thank you for your participation!

* Your assessment is very important for improving the work of artificial intelligence, which forms the content of this project

Download PDF

advertisement