Electrochemistry instruments - Bio

Electrochemistry instruments - Bio
EC-Lab,
BT-Lab,
MT-Lab,
SCAN-Lab products
Electrochemistry
instruments
General electrochemistry
Corrosion
Battery testing
Supercapacitors
Sensors
Coatings
Fuel/solar cells
Materials
Local imaging
Bio-Logic Science Instruments
potentiostats/galvanostats
SAS (founded in 1983) is located near Grenoble in the French Alps.
We design and manufacture high performance, research laboratory instruments and
software for electrochemistry, battery testing, fuel cell and material testing.
Single Bio-Logic’s product range is based on a modular and flexible design.
We offer electrochemical workstations (EC-Lab division) and battery test equipments (BTLab division) from single channel up to 128-channel systems, integrating EIS capability
and high current boosters.
potentiostats/galvanostats
MT-Lab division offers a complete solution for material characterization. It provides a
complete system including impedance analyzer, furnace, sample holders and software
for the control of the instruments and for data acquisition.
Boosters
Multi In 2012, Bio-Logic SAS extended its choice of instruments to the scanning
electrochemical workstations. The Scan-Lab division is dedicated to high resolution
electrochemical mapping tools. These products are developed, designed and
manufactured by Uniscan Instruments Ltd., a company based in Macclesfield, UK. For
more than 20 years, Uniscan Instruments Ltd. have been at the cutting edge of scanning
probe electrochemistry technology.
A unique and complete product range
Battery
test stations
instruments
High current
- More than 20 different potentiostats/galvanostats
- Single to multichannel systems
- Stand alone FRA analyzer & Built-in EIS analyzer (Electrochemical Impedance Spectroscopy)
- Low current options
- High current potentiostats
- Built-in or external high current boosters
- Electronic load box
- Fuel cell test stations
- Configuration can be adapted to the application
Modular systems
Materials & liquids
test stations
Fuel cell
package
Software
- Modular chassis having from 1 to 16 board slots
- Up to 16 independent potentiostats
- High current boosters: 2, 4, 5, 8, 10, 20, 80 and 100 A
- Extended voltage range to ±15 V, ±30 V, ±48 V,
- Load box (50 V, 150 A)
- Low current options (down to aA)
- Multiple user systems (up to 16)
- LSG (Linear Scan Generator) to perform analog voltage ramp
- Boosters in parallel up to 150 A (VMP-300 technology)
- Modular scanning workstations with up to 9 different local techniques (dc-SECM,
ac-SECM, LEIS, SKP, SVET…)
- Battery cycler
- Fully featured impedance analyzer
Controlled by a powerful suite of software
systems
Scanning
test systems
- Comprehensive software package
- Dedicated techniques for most standard electrochemical applications
- Multi-technique experiment builder
- External devices control
- Multiple graph display
- Data analysis & fit
- Safety & experimental limits
- Software calibration
ELECTROCHEMISTRY INSTRUMENTS
2/3
Single PG-581
SP-50 SP-150 SP-200 SP-240 SP-300 Multi VSP
10
VMP3 10
VSP-300
11
VMP-300 11
BiStat 3200 12
SensorStat
12
Boosters
VMP-300 technology
VMP3 technology 14
14
High current HCP-803
HCP-1005
CLB-2000
16
16
16
Battery MPG-2xx series
BCS-8xx series
18
20
Software EC-Lab® / BT-Lab®
EC-Lab® graphics
Electrochemical Impedance Spectroscopy UiEChem™/UiECorr™
22
23
24
25
Fuel cell FCT series 26
FC-Lab
27
Impedance
MTZ-35 28
potentiostats/galvanostats
potentiostats/galvanostats
potentiostats/galvanostats
Coatings
Multi Education/
training
6
6
7
7
8
8
Single potentiostats/galvanostats
ELECTR
test stations
package
test stations
CLE
UG-IN
HI
Power
package
Software
E
mpg
analyzer
Fuel cells
Conductivity
MCS 10 29
test systems
General
electrochemistry
instruments
IC
Fuel cell
ID
Materials & liquids
R
H
B
test stations
V
Nanotechnology
Y
Solar cells,
photovoltaic
systems
High current
Sensors
test stations
instruments
Battery
Batteries
Boosters
Corrosion
PL
meter
systems
Techniques and focus
M370 / M470
30
31
systems
Scanning Scanning
Modular
electrochemical
workstations
designed
to address
applications in...
Supercapacitors
ELECTROCHEMISTRY INSTRUMENTS
4/5
Applications
Applications
Education/training
General electrochemistry
Corrosion
Sensors
Electroanalytical
Education/training
General electrochemistry
Applications
Options
- Floating
- ±8 V scan voltage
- 5-working electrode multiplexer
- Computer-programmable experiment
General electrochemistry
Sensors
Corrosion
Energy sources
Coatings
Options
0.2
0.04
0.1
0.02
0
0
-0.02
-0.1
dI/dt/mA/s
<I>/mA
It can also be connected to external high current boosters (2, 5, 10, 20, 80 and 100 A) or 2 kW load box.
- Low current: full scale range down to 1 nA
- Built-in EIS analyzer: up to 1 MHz
- External current boosters: 2, 5, 10, 20, 80 and 100 A
- Load box: 2 kW
- RDE control kit
High current
instruments
test stations
Additionally, the SP-200 can be purchased with a
standard DC potentiostat or an EIS capable one.
There is also an Ultra Low Current (ULC) option.
On-site experiments can be performed thanks to its portable design.
Applications
General electrochemistry
Sensors
Corrosion
Coatings
Materials
Options
- Ultra Low Current: full scale range down to 1 pA
- Built-in EIS analyzer: up to 7 MHz
- Linear Scan Generator:
1 MV/s, acquisition 1 µs
- SP-200 suitcase
systems
Battery
It offers good performance with a small price tag.
The SP-150 potentiostat configuration can be selected at purchase to include an EIS-capable potentiostat, and a low current option (1 nA full scale range).
Software
The compact design provides a user configurable instrument for demanding research applications and in-field use via its internal rechargeable battery.
package
Contained in a simple, compact chassis, the SP-50 is a fixed configuration unit with no options. It is targeted for new researchers in the field of electrochemistry and an ideal
instrument for teaching and education.
The SP-150 is a full featured economical research grade potentiostat/galvanostat.
With its modular chassis, this instrument
can be customized to address all applications
in the area of classical electrochemistry.
SP-200 is the newest, research grade, valueoriented potentiostat/galvanostat in the EC-Lab®
product range. With excellent specifications in
a portable chassis, the SP-200 is the perfect
instrument for any application in electrochemistry
especially corrosion. The SP-200 offers outstanding
features such as a floating mode, analog filtering, a built-in calibration board, and 9 stability
bandwidths for a better control of the cell.
test stations
When you need to make those on-site trials or routine field measurements, the PG-581 goes with you.
Research grade workstation
High-end potentiostat/galvanostat
Fuel cell
The SP-50 is an economical, value oriented
potentiostat/galvanostat designed to address
applications in general electrochemistry and corrosion.
On-site measurement
SP-150
test systems
Affordable and easy-to-use
Materials & liquids
PG-581
SP-200
Scanning
SP-50
Boosters
Multi potentiostats/galvanostats
Single potentiostats/galvanostats
Single potentiostats/galvanostats
-0.04
-0.2
-0.2
0
0.2
0.4
Ewe/V vs. SCE
0.6
ELECTROCHEMISTRY INSTRUMENTS
6/7
Single
Single potentiostats/galvanostats
Batteries
Corrosion
Coatings
Electrolysis
General electrochemistry
Options
- Ultra Low Current: full scale range down to 1 pA
- Built-in EIS analyzer: up to 7 MHz
- Linear Scan Generator:
1 MV/s, acquisition 1 µs
- SP-240 suitcase
-Im(Z)/Ohm
0.1
0.08
0.06
0.04
0.02
0
0.05
0.1
0.15
Re (Z)/Ohm
0.2
Applications
Education/training
General electrochemistry (RRDE measurement)
Sensors
Corrosion
Electrolysis/anodizing
Coatings
Options
- Ultra Low Current: full scale range down to 1 pA
- Built-in EIS analyzer: up to 7 MHz
- Internal amplifiers: ±1 A/±48 V, ±2 A/±30 V, ±4 A/[-3;14] V, ±10 A/[0;5] V
- Bi-potentiostat
- Linear Scan Generator:
1 MV/s, acquisition 1 µs
- SP-300 suitcase
Single Booster(1)
LSG***
Multi potentiostats/galvanostats
ULC**
suitable
recommanded
excellent
* LC: Low Current ** ULC: Ultra Low Current *** LSG: Linear Scan Generator
(1): Booster, more details on page 16
1
n.a.
n.a.
yes
n.a.
10 μs
2, 3
n.a.
1
10 μHz to 1 MHz (SP-50: n.a.)
n.a.
n.a.
numeric
20 μs
2, 3, 4, 5
manual, EIS, current interrupt
(software)
1 (SP-300: 2)
10 μHz to 7 MHz
yes (1 MV/s), sampling rate 1 µs
yes
analog/numeric
12 μs (1 μs with LSG option)
2, 3, 4, 5
manual, EIS, current interrupt
(software and hardware)
Current
Maximum
±20 mA
±800 mA
with standard board
with low current option
with standard board
with low current option
with standard board
with low current option
internal
8: 1 nA to 10 mA
±10 pA on 1 nA range
61 fA
n.a.
6: 10 μA to 1 A
9: 1nA to 100 mA (SP-50: n.a.)
±20 nA on 10 µA range
±2 pA on 1 nA range
0.8 nA on 10 µA range
80 fA on 1 nA range
n.a.
external
n.a.
2, 5, 10, 20, 80, 100 A,
2 kW load box, (SP-50: n.a.)
1 TΩ (//20 pF)
SP-200: ±500 mA,
SP-240: ±4 A,
SP-300: ±10 A with 10 A booster
9: 10 nA to 1 A
13: 1 pA to 1 A
±100 pA on 10 nA range
±100 fA on 1 pA range
0.8 pA on 10 nA range
80 aA on 1 pA range
SP-200: n.a., SP-240: 4 A,
SP-300: 1 A, 2 A, 4 A, 10 A
n.a.
Current
ranges
Lowest
accuracy
Lowest
resolution
Current
booster
Input impedance
0.1 TΩ (//5 pF)
Voltage
Compliance
Max applied potential
±8 V
±2 V (±8 V in option)
Resolution
Accuracy
Range
Maximum scan rate
Standard: 1 TΩ (//10 pF),
ULC: 100 TΩ (//6 pF)
61 μV on ±2 V
< 5 mV on ±2 V
±2 V (±8 V in option)
10 V/s
±10 V
0-20 V ajustable
SP-50: n.a.
5 μV on 200 mV
< 5 mV on ±2.5 V
±2.5 V, ±5 V, ±10 V
200 V/s
±12 V (±48 V with 48 V booster)
SP-200: ±10 V, SP-240: -3;10 V,
SP-300: ±48 V with 48 V booster
1 μV on 60 mV
< ±1 mV
±25 mV, ±250 mV, ±2.5 V, ±5 V, ±10 V
200 V/s (1 MV/s with LSG option)
Control amplifier
Potentiostat bandwidth
Potentiostat rise/fall time
1.6 MHz
1 V/μs into 1 kΩ
1 MHz
< 2 μs
8 MHz
< 500 ns
General
I/O (analog/TTL)
Interfaces
Dimensions (W x D x H)
n.a./n.a.
USB 2.0
84 x 180 x 52.5 mm
3/2
Ethernet, USB 2.0
136 x 377 x 197 mm
15 W
0.3 kg
110 W
SP-50: 4.0 kg, SP-150: 4.5 kg
3/2
Ethernet, USB 2.0
SP-200: 167 x 410 x 225 mm,
SP-240/SP-300: 205 x 410 x 225 mm
350 W
SP-200: 6 kg, SP-240/SP-300: 7.5 kg
Power requirements
Weight (chassis + board)
n.a.: not available
ELECTROCHEMISTRY INSTRUMENTS
instruments
SP-200/SP-240/SP-300
test stations
SP-50/SP-150
Battery
PG-581
Features
Max. number of channels
EIS capability
Linear Scan Generator
Floating option
Filters
Acquisition time
Electrodes connections
IR compensation
High current
Specification overview
Software
ElS
package
Applications
Alternatively, the SP-300 can accept a second
potentiostat board (either standard or EIS) and
perform as a Bipotentiostat. It is also a multiple
user system as each channel board can be used
independently by two different researchers.
Std
test stations
As a part of the SP-200/300 product range, the SP-240 benefits in the same specifications and options.
The SP-300’s modular chassis accept an optional
high current/high voltage option board.
SP-200/ SP-240/SP-300
Booster(1)
Fuel cell
SP-240 is a 4 A potentiostat/galvanostat/EIS with excellent specifications in a portable chassis,
the SP-240 is the perfect instrument for any
application in electrochemistry especially energy devices testing.
LC*
test systems
Powerful in a compact chassis
SP-300 is a state-of-the-art research grade
potentiostat/galvanostat/EIS with remarkable
specifications. The base specifications are the same for both the SP-300 and the SP-200 including floating mode, analog filtering, built-in
calibration board, and stability bandwidths.
ElS
Materials & liquids
SP-240
SP-50/SP-150
Std
systems
Fast, sensitive, stable and modular
PG-581
Scanning
SP-300
Modules
Education
General electrochemistry
Analytical electrochemistry
Corrosion
Nanotechnology/sensors
Battery
Supercapacitor
Fuel cells
Solar cells
Electrolysis
Coatings
Materials
For each instrument, modules
can be mixed together
Boosters
Applications
potentiostats/galvanostats
potentiostats/galvanostats
8/9
Multi potentiostats/galvanostats
Single potentiostats/galvanostats
Multi potentiostats/galvanostats
Options
- Low current: full scale range down to 1 nA
- Built-in EIS analyzer: up to 1 MHz
- External current boosters: 2 , 5, 10, 20, 80 and 100 A
- External load box LB-2000 (50 V/-150 A)
- Internal ±4 A booster kit for VSP only
- SAM 50 for stack (50 V) measurement (up to 30 elements with 3 SAM-50) for VMP3 only
- Additional potentiostat/galvanostat/EIS
Boosters
- Ultra Low Current: full scale range down to 1 pA (resolution of 80 aA)
- EIS measurement: up to 7 MHz
- Linear Scan Generator:
1 MV/s, acquisition 1 µs
- Current boosters: ±1 A/±48 V, ±2 A/±30 V, ±4 A/[-3;14] V, ±10 A/[0;5] V
- Additional potentiostat/galvanostat/EIS
0
-2
-4
-6
-8
ELECTROCHEMISTRY INSTRUMENTS
Options
systems
Fuel/photovoltaic cells
General electrochemistry
Corrosion
Sensors
Materials
Energy storage
package
Batteries/supercapacitors
Scanning
instruments
Applications
log (|<I>/mA|)
Electroanalytical
General electrochemistry
Corrosion
Sensors
Energy sources
Energy storage
Batteries
Coatings
High current
Low current sensitivity can be improved using the Ultra Low Current option.
Applications
EIS measurements can be added as an option. The built-in EIS has a wide frequency range up to 7 MHz.
test stations
The VMP3 is also a multiple user system. Thanks to the Ethernet LAN connection capability,
several computers can be connected to the unit at the same time.
The channels and booster boards can be combined
in the chassis either to have many channels or to reach high currents.
Battery
Each channel board can accomodate an Ultra Low Current cable and can be associated with one or several booster kits. Up to 4 booster kits can be plugged in paralle in one VSP-300 chassis.
The VMP-300 is the most modular chassis of our
product range offering 16 slots for potentiostats/
galvanostats/EIS boards and/or booster boards.
test stations
The internal 4 A option takes two slots in the VSP chassis and requires a potentiostat board to be used with it. External boosters from 2 A up to 100 A can be used with each channel in the VSP.
Each potentiostat installed in the VMP3 can be connected to an external high current booster channel.
The VSP-300 multichannel potentiostat/
galvanostat/EIS is a versatile instrument offering 6 slots to set from 1 to 6 channel boards.
Ultimate multichannel electrochemical workstation
Fuel cell
The VSP is a research grade potentiostat system in a 5-channel modular chassis. This allows the
VSP to add additional capability in the way of plug-in “modules”. These modules provide EIS
capability (included on the potentiostat board),
low current measurement (uses 1 additional slot),
4 A current booster (two slots) and additional
potentiostat channels (each one takes one slot).
The VMP3 is a research-grade multi-channel
potentiostat. With its modular chassis design, up to 16 independent potentiostat channels can be installed. The VMP3 can be equipped with
additional capabilities, including low current
measurement, impedance.
Versatile high-end multipotentiostat
test systems
Affordable research grade multichannels
16-channel research grade potentiostat system
Materials & liquids
VSP
VMP-300
VSP-300
Software
VMP3
-1.5
-1
Ewe/V
-0.5
10/11
Multi
Multi potentiostats/galvanostats
0
-20
-40
-80
-0.5
Ewe/V
0
0.5
Multi potentiostats/galvanostats
Booster(1)
recommanded
excellent
(1): Booster, more details on page 16
Boosters
suitable
* LC: Low Current
Current
Maximum current
±20 mA
±400 mA
Current with standard board
ranges with low current option
Lowest with standard board
accuracy with low current option
Lowest with standard board
resolution with low current option
Current internal
booster external
8: 1 nA to 10 mA
±10 pA on 1 nA range
61 fA
n.a.
n.a.
Input impedance
0.1 TΩ (//5 pF)
6: 10 μA to 1 A
9: 1nA to 100 mA (SP-50: n.a.)
±20 nA on 10 µA range
±2 pA on 1 nA range
0.8 nA on 10 µA range
80 fA on 1 nA range
4 A for VSP only
2, 5, 10, 20, 80, 100 A,
2 kW load box
1 TΩ (//20 pF)
±500 mA (VMP-300: 150 A with
fifteen 10 A boosters)
9: 10 nA to 1 A
13: 1 pA to 1 A
±100 pA on 10 nA range
±100 fA on 1 pA range
0.8 pA on 10 nA range
80 aA on 1 pA range
1 A, 2 A, 4 A, 10 A
n.a.
Voltage
Compliance
Max applied potential
Resolution
Accuracy
Range
Maximum scan rate
±8 V
±2 V (±8 V in option)
61 μV on ±2 V
< 5 mV on ±2 V
±2 V
10 V/s
±10 V
0-20 V ajustable
5 μV on 200 mV
< 5 mV on ±2.5 V
±2.5 V, ±5 V, ±10 V
200 V/s
±12 V (±48 V with 48 V booster)
±10 V (±48 V with 1 A/48 V booster)
1 μV on 60 mV
< ±1 mV
±2.5 V, ±5 V, ±10 V, ±25 mV, ±250 mV
200 V/s (1 MV/s with LSG option)
Control amplifier
Potentiostat bandwidth
Potentiostat rise/fall time
1.6 MHz
1 V/μs into 1 kΩ
1 MHz
< 2 μs
8 MHz
< 500 ns
n.a./n.a.
USB 2.0
BiStat 3200: 213 x 110 x 240 mm,
SensorStat: 450 x 320 x 135 mm
BiStat 3200: 15 W,
SensorStat: 130 W
BiStat 3200: 2.1 kg,
SensorStat: 14 kg
3/2
Ethernet, USB 2.0
VSP: 435 x 335 x 95 mm,
VMP3: 495 x 465 x 260 mm
VSP: 300 W,
VMP3: 650 W
VSP: 8 kg,
VMP3: 20 kg
3/2
Ethernet, USB 2.0
VSP-300: 254 x 517 x 337 mm,
VMP-300: 534 x 565 x 315 mm
VSP-300: 650 W,
VMP-300: 1500 W
VSP-300: 20 kg,
VMP-300: 30 kg
instruments
VSP-300: 6,
VMP-300: 16
10 μHz to 7 MHz
yes (1 MV/s), sampling rate 1 µs
yes
analog/numeric
12 μs (1 μs with LSG option)
2, 3, 4, 5
manual, EIS, current interrupt
(software and hardware)
High current
VSP: 5,
VMP3: 16
10 μHz to 1 MHz
n.a.
CE to Ground
numeric
20 μs
2, 3, 4, 5
manual, EIS, current interrupt
(software)
test stations
EIS capability
Linear Scan Generator
Floating option
Filters
Acquisition time
Electrodes connections
IR compensation
BiStat 3200: 2,
SensorStat: 14
n.a.
n.a.
yes
n.a.
10 μs
2, 3
n.a.
Features
Maximum number of channels
Battery
VSP-300/VMP-300
Software
VSP/VMP3
Weight (chassis + pstats)
-120
LC*
BiStat 3200/SensorStat
Power requirements
-100
ElS
Specification overview
General
I/O (analog/TTL)
Interfaces
Dimensions (W x D x H)
-60
Std
package
Electroanalyst studies
Dual electrode voltammetry
Ring-disk electrode studies
Electrochemical sensors
Biomedical
Electroanalytical
Corrosion
Booster(1)
1 TΩ (//10 pF), ULC: 100 TΩ (//6 pF)
test stations
- RC10 V rotator controller
- ±8 V scan range
- Floating
- ±8 V compliance
VSP-300/VMP-300
LC*
Fuel cell
Applications
Options
ElS
test systems
The lowest full scale range is 1nA (resolution of 61 pA).
By connecting a 14-channel SensorStat to other
SensorStat units, an extended system is created.
A 98-electrode sensor way can be individually
addressed by chaining together seven 14-channel systems.
Std
Materials & liquids
The BiStat 3200 can operate as two independent
isolated instruments or as a bipotentiostat/
bigalvanostat.
The modular design provides a user configurable
system for demanding research applications. The SensorStat in configurable for 8 to 14 channels.
VSP/VMP3
systems
With its true 2-channel measurement capability, the BiStat 3200 provides the features found in a traditional laboratory based instrument, in a dual design.
Dedicated to sensor applications
BiStat 3200/SensorStat
Scanning
High quality bipotentiostat for demanding research applications
SensorStat
I/nA
BiStat 3200
Modules
Educational
General electrochemistry
Electroanalytical
Corrosion
Nanotechnology/sensors
RRDE/catalysis
Battery/supercapacitor
Fuel cells/stacks
Solar cells
Electrolysis
Coatings
For each instrument,
modules can be mixed together
Single Applications
potentiostats/galvanostats
potentiostats/galvanostats
n.a.: not available
ELECTROCHEMISTRY INSTRUMENTS
12/13
Boosters
Boosters
potentiostats/galvanostats
high current and high voltage
±49 V
±48 V
±30 V
±30 V
-3 V ; +14 V
-3 V ; +10 V
-1 ; +6 V
-1 ; +6 V
Features
EIS frequencies
Bandwidth (-3 dB)
Slew rate (no load)
Rise/fall time (no load)
Floating mode
Parallel ability
Connection
10 µHz - 2 MHz
> 2 MHz
> 15 V/µs
< 250 ns
yes
no
2, 3, 4, 5 leads
10 µHz - 1 MHz
> 3 MHz
50 V/µs
< 200 ns
yes
yes
2, 3, 4, 5 leads
10 µHz - 1 MHz
> 4 MHz
50 V/µs
< 200 ns
yes
yes
2, 3, 4, 5 leads
10 µHz - 1 MHz
> 8 MHz
50 V/µs
< 200 ns
yes
yes
2, 3, 4, 5 leads
10/20 A
80/100 A
2, 3, 4, 5 terminal leads
adjustable ±10 V range
2, 3, 4, 5 terminal leads
adjustable ±10 V range
2 A: ±2 A,
4 A: ±4 A,
5 A: ±5 A
±20 V
15 μs
40 μs
10 A: ±10 A,
20 A: ±20 A
2, 3, 4, 5 terminal leads
80 A: ±3 V
100 A: 0.6 - 5 V
80 A: ±80 A,
100 A: ±100 A
±20 V
25 to 60 μs
50 to 120 μs
±3/5 V
95 μs to 1.7 ms
150 μs to 4.0 ms
2 A: < 4 mA on 2 A range,
4 A: < 8 mA on 4 A range,
5 A: < 10 mA on 5 A range
0.6 mV
10 A: < 20 mA on 10 A range,
20 A: < 40 mA on 20 A range
80 A: < 160 mA on 80 A range,
100 A: < 200 mA on 100 A range
0.6 mV
0.6 mV to 0.15 mV (0-10 kHz)
1 mA @ 2/4/5 A
10 A, 6 mA @ 20 A
20 mA @ 80 A, 5 mA (0-10 kHz)
1 MHz
1 MHz
1 MHz
2 A: up to 150 kHz,
4 A: up to 130 kHz,
5 A: up to 120 kHz
0.5 mV to 0.5 V - 0.1% to 50%
of the current range
10 A: up to 80 kHz,
20 A: up to 80 kHz
80 A: up to 15 kHz,
100 A: up to 10 kHz
0.5 mV to 0.5 V - 0.1% to 50%
of the current range
0.5 mV to 0.5 V - 0.1% to 50%
of the current range
General
1 external input
security to open circuit (TTL level)
security to open circuit (TTL level)
Power
Chassis dimensions (W x D x H)
Chassis weight
Booster board weight
1,000 W
495 x 465 x 280 mm
24 kg
2 A: 1 kg, 4 A: 0.85 kg, 5 A: 1 kg
1,000 W
495 x 465 x 280 mm
24 kg
10 A: 2 kg, 20 A: 4.2 kg
security to open circuit (TTL level)
Emergency push button
1,000 W
495 x 465 x 280 mm
24 kg
80 A: 4.8 kg, 100 A: 9 kg
Cell control
Connection
Compliance
Maximum current
Maximum potential
Rise time and
potentiostat
fall time
galvanostat
Deliver more power to your application with a high current booster
Measurement
Current accuracy
There is an 80 or 100 A booster unit. The 80 A and 100 A booster exist also as a stand alone system (HCP-803, HCP-1005 see pages 15/16).
One 4 A booster kit can be directly inserted in the VSP chassis.
Configurations
Potential noise
(peak to peak 0-100 kHz)
Current noise
(peak to peak 0-100 kHz)
Electrometer
Bandwidth
EIS
Max frequency (accuracy 1%, 1°)
Amplitude
- External: ±2 A, ±5 A, ±10 A, ±20 A on ±10 V adjustable from –20 to +20 V
±80 A on ±3 V
±100 A on (0.6 - 5) V
- Internal kit: ±4 A on 20 V only for VSP
General features
instruments
2/4/5 A
High current
VMP3 boosters
VMP3 technology
SP-150, VSP and VMP3 potentiostats can be interfaced to a separate current
booster unit. These modular booster units can have different booster modules
placed inside them (2, 5, 10, or 20 A). In the standard booster chassis there
are 8 available booster slots and the current limit is 20 A. Each booster
channel is connected to a potentiostat board.
potentiostats/galvanostats
Voltage
Compliance
Control
Multi ±10 A
< 60 mA on 10 A range
Boosters
±4 A
< 8 mA on 4 A range
test stations
- Booster range included in the autoranging
- EIS capability up to 2 MHz
- Plug-in modules
- Plug-and-play
- 5-lead connection type
- Parallel boosters to increase the max current
±2 A
< 4 mA on 2 A range
Battery
General features
±1 A
< 2 mA on 1 A range
package
± 1 A/±48 V
±2 A/±30 V
±4 A/[-3;14] V
±10 A/[0;5] V
Current
Compliance
Accuracy
Software
Configurations
±10 A/[1;6] V
test stations
Depending on the instrument chassis, several similar boosters can be
connected in parallel to expand the maximum current of the system. This feature is available for the 2 A, 4 A and 10 A boosters.
±4 A/[-3;14] V
Fuel cell
A range of internal boosters has been designed to increase the current and the voltage specifications of the SP-300, VSP-300, and VMP-300. Four models are available: ±1 A/±48 V, ±2 A/±30 V, ±4 A/[-3;14] V, ±10 A/[0;5] V.
±2 A/±30 V
test systems
High current and high voltage boosters.
From 1 pA to 150 A and from 5 V to 48 V
±1 A/±48 V
Materials & liquids
VMP-300 technology
Single VMP-300 boosters
systems
Scanning
- Booster range included in the autoranging (for boosters up to 20 A)
- EIS capability
- Plug-in module or external chassis
- Plug-and-play
- 5-lead connection type
ELECTROCHEMISTRY INSTRUMENTS
14/15
High current
High current instruments
HCP-803
potentiostats/galvanostats
instruments
The HCP-1005 is a compact High Current Potentiostat specially designed to study secondary batteries with a high capacity. With a voltage range of 0.6 to 5 V and a current range of ±100 A, this unit can be used to test
industrial Li-ion battery modules.
The EIS capability integrated in the chassis is ideal for ageing tests.
The HCP-1005 structure is similar to the HCP-803. It is a combination of a research potentiostat and a 100 A booster built into the same chassis.
Applications
Lithium-ion
Nickel-Cadmium
Nickel-Metal hydride
Battery
CLB-2000
150 A/50 V electronic load for stack testing
The CLB-2000 is a 150 A/50 V controlled electronic load designed to study
stacks of fuel cells and solar cells.
potentiostats/galvanostats
Multi Features
EIS capability
Acquisition time
Electrodes connections
IR compensation
10 μHz to 15 kHz
20 µs
2, 3, 4, 5
manual, EIS, current interrupt
10 μHz to 10 kHz
200 μs
2, 3, 4, 5
manual, EIS, current interrupt
10 μHz to 10 kHz
200 μs
2, 3, 4, 5
manual, EIS, current interrupt
Current
Maximum current
Current ranges
Accuracy
Best resolution (meas)
Input impedance
±80 A
7: 10 μA to 80 A
< 160 mA on 80 A range
6.4 mA on 80 A range
10 MΩ (//20 pA)
±100 A
7: 10 μA to 100 A
< 200 mA on 100 A range
8 mA on 100 A range
10 MΩ (//20 pA)
-150 A
7: 10 μA to 150 A
< 750 mA on 150 A range
6 mA on 150 A range
n.a.
Voltage
Max applied potential
Resolution
Accuracy
±3 V
5 μV on 200 mV
10 mV on ±5V range
0.6-5.0 V
5 μV on 200 mV
mV on 0-5 V range
50 V
400 µV on 0-50 V range
50 mV on 0-50 V range
Control amplifier
Bandwidth with boosters
Potentiostat rise/fall time
10 kHz
95 μs
10 kHz
1.7 ms
10 kHz
n.a.
3/2
n.a.
n.a.
Ethernet, USB 2.0
495 x 465 x 280 mm
1000 W
23 kg
3/2
with analog I/O
PT100
Ethernet, USB 2.0
495 x 465 x 280 mm
1000 W
25 kg
3/2
With analog I/O
n.a.
Ethernet, USB 2.0
495 x 465 x 280 mm
100 W
28 kg
General
I/O (analog/TTL)
Temperature control
Temperature probe
Interfaces
Dimensions (W x D x H)
Power requirements
Weight (chassis + pstats)
n.a.: not available
Boosters
CLB-2000
instruments
More power for battery testing
HCP-1005
High current
HCP-1005
HCP-803
test stations
S
upercapacitors
Electroplating
Battery
Specification overview
Battery
Fuel cells
Photovoltaic systems
excellent
package
Applications
recommanded
Software
It is a combination of a research quality potentiostat and an 80 A booster built
into the same chassis. The potentiostat has the same specifications as the
VMP3 potentiostat boards (with EIS option) when not connected to the booster
portion of the unit.
CLB-2000
test stations
The HCP-803 is a High Current Potentiostat capable of handling ±80 A with a
voltage range of ±3 V. It is primarily designed for applications in the fuel cell and supercapacitor areas.
HCP-1005
Fuel cell
High current for supercapacitors and fuel cells
Single Applications
Modules
HCP-803
Batteries/intercalation compounds
Supercapacitors
Fuel cells
Photovoltaic cells
Stack of fuel & photovoltaic cells
Electrolysis
Coatings
suitable
Materials & liquids
The CLB-2000 couples a 2 kW electronic load with an EIS capable potentiostat
in the same compact chassis.
This unit can be used in connection with a VMP3 to perform simultaneous
measurements (AC and DC) on individual elements of the stacks (up to 30 elements).
Applications
Scanning
IC
systems
ELECTR
E
Y
ID
CLE
UG-IN
HI
H
R
- SAM-50: voltage adapter (50 V) to be used with VMP3
V
B
test systems
Options
Fuel cells
Solar cells
Photovoltaic systems
Stacks of cells
PL
mpg
ELECTROCHEMISTRY INSTRUMENTS
16/17
potentiostats/galvanostats
Battery test stations
VMP3/VMP-300 is more for advanced measurement
(research level) and BCS-8xx offers the standard of
the cycler with research EIS measurement. MPG-2xx
is a solution in-between.
- Current ranging: 10 µA up to max current with a resolution 0.004% of the range
- 0-9 V reference voltage
- Resolution of 300 µV programmable down to 5 µV by adjusting the dynamic range
(100 µV resolution on 5 V range)
- Acquisition time: 200 µs
- No limit in time and data recording
Boosters
instruments
High current
test stations
Battery
test stations
Specifications
- EIS
- Rack (5 units)
- Short (25 cm) or long cables (2.5 m)
- Temperature probe
- BH-1i Battery Holder
Fuel cell
Yes. Down to 6 ppm
128
High-throughput battery/material
screening
test systems
Yes. Down to 6.3 ppm
16
Research development
Options
Materials & liquids
10 µA – 120 A
0;9 V
10 kHz-10 mHz
Yes on each module
2 ms
2-electrode/4-points
measurement
systems
BCS-8xx series
10 µA to 40 A
-2;9 V
20 kHz – 10 µHz
Yes on each channel
200 µs
2-electrode/4-points
measurement
MPG-240
Scanning
HPC measurement
Max Channel number
Application
MPG-2xx series
The MPG-2xx series is supplied with EC-Lab®
software, developed for battery and supercapacitor
applications. Most of the techniques are designed
specifically for batteries. Specific analysis tools are also available.
MPG-220
package
Specification overview
MPG-210
Software
Only one computer is necessary to control all the units thanks to the Ethernet connection. With this connection, the MPG-2xx series can be installed on a Local Area Network to allow multiple users to access the instruments and follow the battery cycling from anywhere.
The MPG-2xx series offers a temperature
measurement and three optional connection modes to the battery (battery holder, short or long cables). Each channel has two analog inputs and one analog output to allow interfacing
with external instruments.
1 pA - 150 A
±10 V
7 MHz – 10 µHz
Yes on each channel
200 µs/1µs with LSG option
2,3-electrode/4-points
measurement with CE
measurement
Yes. Down to 6 ppm
16
High end research
MPG-205
The MPG-2xx series can be provided in a rack
capable of supporting up to 5 units.
For high-throughput measurement, BCS-8xx would
be recommended (up to 128 channels can be put in
a single cabinet). Note EC-Lab® allows the user to
control several VMP3 or MPG-2xx instruments from
one session.
VMP3/VMP-300
MPG-2
Multi The MPG-2xx series is proposed as a range of 5 units (in fixed configurations) with or without EIS on every channels:
- MPG-2: 16 channels/100 mA each,
- MPG-205: 8 channels/5 A each,
- MPG-210: 4 channels/10 A each,
- MPG-220: 2 channels/20 A each,
- MPG-240: 1 channel/40 A.
potentiostats/galvanostats
R&D grade battery test stations
That’s why, Bio-Logic is offering several solution to
meet your need.
Current ranges
Voltage range
EIS frequency range
In-built EIS
Acquisition time
Electrode connection
Single MPG-2xx series
According to your applications, your requirements
for battery/supercapacitor investigation are different
(reference electrode required or not, sampling,
maximum frequency for EIS, channel number…).
ELECTROCHEMISTRY INSTRUMENTS
18/19
Specifications
- High quality EIS: Full scan from 10 kHz to 10 mHz
- 18-bit A/D converter (40 µV resolution)
- HPC measurement down to 6.3 ppm
- Modularity from few µA to 120 A
- Voltage measurement from 0 V to 9 V
- Module mixing (BCS-805/810/815)
- Powerful interface
- 2 ms acquisition time
- Several cabinet sizes
- Plug and play module installation
Low frequency range of the
spectrum is an invaluable source
of information about Li+ diffusion
within the electrolyte (separator),
as well as porosity within
electrodes and inside the active
material particles..
18-bit resolution allows
recording small-amplitude EIS
on top of substantial DC currents
with very good accuracy.
Single potentiostats/galvanostats
Multi Boosters
Diffusion process
instruments
BCS-8xx modules can be added to a single cabinet.
Several sizes are offered (38U, 24U, 12U and 6U).
Low frequency
High current
To add even more capability and value, every channel in
a module is EIS-capable over a frequency range from
10 kHz to 10 mHz for accurate and fast determination of
the battery internal resistance.
If there are sources of uncompensated inductance or capacitance in the cell, only full
impedance spectrum can be
a reliable measure or internal
High frequency
resistance through an automated
spectrum fitting procedure.
Internal
resistance
test stations
With an 18-bit analog to digital converter for the voltage
measurement, the resolution of the BCS-8xx is an
impressive 40 µV.
Battery
Channels of BCS-815 modules can be connected in
parallel to increase the maximum current up to 120 A.
Induction
behavior
test stations
Fuel cell
Options
Connection:
Materials & liquids
- Cell cable from 25 cm to 10 m
- CCH-1xx Coin cell holder
- BH-1i Cylindrical battery holder
- CC8 Current collector to set parallel mode (up to ±120 A).
Cabinet:
test systems
- Rolling cabinet (38U, 24U)
- Benchtop cabinet (12U, 6U)
systems
u re m
To ensure better accuracy in current control and
measurement, 5 current ranges are available
depending on the model.
BCS-8xx series, with its fast bandwidth controllers, offers both potentio- and galvano- control
for EIS measurements in 10 kHz to 10 mHz frequency range, with user-specified number
of data points and frequency range to be recorded. User is also in control of the excitation
amplitude. Impedance spectroscopy can be used as a standalone technique, but it can be also
seamlessly incorporated into our ModuloBat technique to record the impedance spectrum of
the battery, either in equilibrium or steady-state conditions. That means you not only can record
a spectrum of the cell at a constant voltage, but also under a given galvanostatic load.
Scanning
m
eas
en
t
EIS
Each BCS-8xx module is composed of 8 channels.
package
Battery cycling test stations
Impedance measurement for battery testing,
why...?
Software
BCS-8xx series
potentiostats/galvanostats
Battery cyclers
ELECTROCHEMISTRY INSTRUMENTS
20/21
Software package
potentiostats/galvanostats
0.8
General electochemistry
Peak Analysis...
Wave Analysis...
0.4
Single <I>/mA
0.6
CV Fit...
0.2
RP Fit...
0.6
Tafel Fit...
Electrochemical Noise...
EC-Lab® /BT-Lab®
EC-Lab® graphics
Powerful and comprehensive advanced software
An extended range of analysis
VASP Fit...
Display…
CASP Fit...
BT-Lab® provided with...
Battery cycling systems: BCS-805, BCS-810, BCS-815
The appearance of the software interface is adjustable to create the best working environment for the user.
Experimental sequence builder
EC-Lab® software contains more than 80 techniques. These techniques can address applications in voltammetry, EIS, corrosion and energy source development.
A powerful technique builder can execute a series of different
modular techniques, wait and loop features to create complex
experimental sequences.
Even within each technique, the user can create up to 100 linkable
sequences of that experiment with different parameters. When a certain level of the experiment is reached, an email can be sent to the user.
EIS measurements
EIS measurements can be made in both controlled potential and
controlled current modes from 10 μHz to a remarkable 7 MHz.
The patented “drift correction” algorithm and multiple stability
parameters allow users to acquire high quality data from their EIS measurements (more information in page 22).
Powerful electro-analytical analysis tools (such as peak find/height,
convection wave, integral, Tafel fit, Rp determination) are available in EC-Lab®. These analyses incorporate classical fit routines (linear, polynomial, multi-exponential) and algorithms. All the analysis results are stored in a separate file.
Battery process
Process data (capacity,
efficiency, energy...)
EC-Lab®’s EIS modeling package, Z Fit, utilizes the equivalent
circuit approach. There are over 150 standard circuits and two
minimizations algorithms available for use in understanding
impedance plot information.
Photovoltaic
The user can define and build his own circuit model using a range
of thirteen simple elements (R, C, L, Q, W, G, Wd, M, Ga, Gb, La, Ma,
Mq). The last elements can be assimilated to a transmission lines.
A batch processing feature allows the fitting of multiple cycles in an impedance experiment.
Math
Photovoltaic analysis (fill factor, efficiency...)
Polynomial Fit...
Multi-Exponential Fit...
… & simulation
Line Fit...
Several tools are available to simulate CV curve, Tafel plot or EIS
data. They can be used as training tools.
Subtract Files...
CV Sim allow the user to create data with different mechanisms
such as single (E) or multi (up to EEEEE) electron transfer. Electron
transfer reaction can also be mixed with chemical reaction electron
transfer to simulate an EC mechanism.
Integral...
Min Max...
0
Filter...
-0.1
-0.2
-0.3
-0.4
-0.5
-0.6
Boosters
Kramers-Kronig...
test stations
Most of the experimental parameters can be modified “on the fly”
during the experiment, with the changes stored into the raw data file.
Mott-Schottky...
Battery
Two view modes are available in EC-Lab /BT-Lab . The setup of
experiments can be done with a technique menu, or by inputting
parameter values into a spreadsheet.
®
package
Single potentiostats/galvanostats: SP-50, SP-150, SP-200, SP-240, SP-300
Multi potentiostats/galvanostats: VMP-300, VSP, VMP3, VSP-300
High current potentiostats/galvanostats:
HCP-803, HCP-1005, CLB-2000
Battery test stations: MPG2, MPG-205, MPG-210, MPG-220, MPG-240
… fitting…
®
Z Sim...
Software
EC-Lab® provided with...
Display mode
Z Fit...
test stations
Photovoltaic cell
Using our advanced “Process” function, the user can create new variables for each axis. This enables mathematical functions to be performed on data plotted on any axis (x, y1 and y2).
Fuel cell
Fuel cell
With more than 15 years of development and constant improvement
in techniques and features, EC-Lab® software has become the
benchmark in potentiostat control software.
test systems
Super-capacitor
EIS
-6
-5
-4
-3
Log (<I>/mA)
-2
ELECTROCHEMISTRY INSTRUMENTS
-1
15
10
5
0
Fourier Transform...
Linear Interpolation...
10
20
30
Re(Z)/Ohm
40 0
1
Time/h
systems
Battery
EC-Lab®’s graphic package provided with the software includes a powerful 3-Dimension plot feature and a tool to create unique
graph templates.
Scanning
Corrosion
Corr Sim...
-Im(Z)/Ohm
Electro-analytical
EC-Lab® is an advanced software package for performing
electrochemistry measurements, whereas BT-Lab® is dedicated to
battery cycling system (BCS-8xx series).
Ewe/V
General electrochemistry
A comprehensive software package
Multi 0.4
instruments
0.2
Ewe/V
High current
0
Materials & liquids
-0.2
Impedance spectroscopy
potentiostats/galvanostats
Corrosion
0
2
22/23
potentiostats/galvanostats
Single potentiostats/galvanostats
Software package
UiEChem™:
Accuracy
Accuracy is given by the error observed on the phase and on the magnitude. For almost all of our potentiostats, we specify 1%, 1° accuracy below 500 kHz,
which is reduced with a booster. For SP-200/300 technology, the performance is higher and reaches 0.3%, 0.3° accuracy in the same area.
Modeling
EC-Lab® software offers Z Fit, a modeling tool for equivalent circuit fitting.
Over 150 standard circuits combining 13 elements and two minimization
algorithms (Simplex DownHill and Levenberg-Marquardt) are available to investigate impedance data.
Z Fit and Z Sim tools are available in EC-Lab® demo version.
Graphic display & analysis
A standard graphics display is provided for each technique and we have added the ability for the user to define their preferred format for each
technique from a simple template.
Multi Boosters
instruments
High current
test stations
Battery
-0.184
0.008
0.2
E/V
0.392
0.584
package
EIS contour plot of SP-300 with standard cable
Finally our EIS techniques can be sequenced to apply different defined
conditions during the frequency sweep.
Software
1e+3 10e+3 100e+3 1e+6 10e+6
Frequency (Hz)
0
-10.91
-21.34
-31.76
-42.18
The UiEChem™ software features a peak analysis routine which is easy to use.
1,42
Advanced waveform generation
The instruments are capable of generating complex and repetitive waveforms with precision timing. The instrument has a sequenced waveform
generator which generates waveforms based on a sequence of steps. Each step may comprise a waveform which includes pulses, linear sweeps and arbitrary waves.
Provided with...
Single potentiostats/galvanostats: PG-581
test stations
AC sine waves can be superimposed on a DC potential or a DC current value.
Additional techniques are available that impose the sine wave on a potential
(SPEIS, also known as Mott Schottky technique) or a current (SGEIS) sweep.
The UiEChem™/UiECorr™ software provides a flexible, intuitive interface for running multiple experiments in a user-defined sequence. Once the sequence is started the experiments are run automatically, one-at-a-time, in the order in which they appear in the sequence.
Fuel cell
Controlling techniques
Autosequencing
0,76
0,11
-0,54
-1,19
-0,208 -0,0325 0,142
0,317
E/V
0,492
0,667
test systems
This feature results in several major tools developed in our control software:
single sine and multi sine EIS techniques, Fast Fourier Transform (FFT)
based integration, cycle averaging up to 16 frequencies and a patented drift correction.
Materials & liquids
1pF
- Ecorr vs Time,
- Linear Polarization Resistance,
- Tafel Plot,
- Potentiostatic Polarization,
- Galvanostatic Polarization,
- Potentiodynamic Polarization,
- Zero Resistance Ammetry
Multi potentiostats/galvanostats: BiStat 3200, SensorStat
systems
1e+9
1e+8
3% 3°
1e+7
1% 1°
1e+6
1e+5 0.3% 0.3°
1e+5
1e+3
1e+2
1e+1
1
1e-1
1e-2
1e-3
1
10 100
Many units in the electrochemistry product range developed by Bio-Logic can be equipped with a built-in EIS analyzer. This measurement is based on the DSP technology that mixes accuracy and fast sampling.
UiECorr™:
After a technique has been selected a waveform diagram is displayed showing the structure of the experiment. At the same time the user can enter in the experimental parameters, set the sampling rate, number of cycles and current autoranging. The software automatically configures itself to the number of potentiostat channels installed in the unit.
Scanning
|Z| (Ohm)
Measurements
The UiEChem™/UiECorr™ software supplied with the PG-581, BiStat 3200, SensorStat, is a comprehensive and fully featured package which encompasses a wide selection of standard electrochemical techniques.
All this is combined with an easy-to-use graphics interface.
Current/mA
Built-in EIS capability with equivalent circuit fitting
UiEChem™/UiECorr™
Current/mA
Electrochemical
Impedance Spectroscopy
- Cyclic Voltammetry,
- Linear Sweep Voltammetry,
- Chronoamperometry,
- Chronopotentiometry,
- ChronoOCV, - Chrono auxiliary potential,
- Square Wave Voltammetry,
- Normal Pulse Voltammetry,
- Differential Pulse Voltammetry
ELECTROCHEMISTRY INSTRUMENTS
24/25
potentiostats/galvanostats
Fuel cell test stations
Single FCT series
Two models for 25 and 50 cm² PEM FC
potentiostats/galvanostats
The FCT-50S/Z and FCT-150S/Z are compact fuel cell test stations designed for PEM FC (Proton Exchange Membrane Fuel Cell) testing. Based on feedback from our customers, they are designed to be the most flexible test stations on the market.
Applications
Boosters
FC-Lab
Powerful monitoring software
FC-Lab is the operating software used to control and analyze data from the
instrument. With an easy-to-use interface, it offers all controls and functions
for fuel cell testing with individually tabbed menus.
instruments
A number of safety features have been incorporated in the hardware and software. To conduct long-term experiments, such as fuel cell ageing, Bio-Logic has developed an automated humidifier, water filling and condenser water purging, all managed by FC-Lab control software.
High current
The electronic load uses state-of-the-art technology and is capable of reaching very low voltage levels (virtually 0 V) at 150 A (for FCT-150S/Z) and 50 A (for FCT-50S/Z).
Multi The compact chassis integrates a programmable electronic load (250 W), gas and water control circuitry (flow, pressure and temperature) and data acquisition.
The graphic functions offer a real-time display of performance of the fuel cell
with respect to each of the measured or controlled variables.
PEM FC development and testing
Single cell or small stacks
Data can be analyzed by EC-Lab® fitting tools (Z Fit...).
Analysis
Battery
Software
package
0
-10
20
40
60
Re(Z)/mOhm
80
100
test stations
Techniques
10
Fuel cell
Loal Control
current density display,
on the fly parameter changes,
multivariable graphic display
galvanostatic/galvanodynamic,
potentiostatic/potentiodynamic,
power/load
open circuit voltage,
voltage pulses,
current pulses,
voltage scan,
current scan,
potentio EIS,
galvano EIS,
constant load discharge,
constant power discharge,
macrotechniques (SGEIS, SPEIS),
loop
EC-Lab®
20
test systems
150 A
5V
250 W
0.7 mΩ
10 μHz up to 10 kHz
0.5% FSR
11 mA
76 μV
0 -120 L/h
0 - 300 L/h
0 - 5 bars
cell, humidifiers, heaters
Ethernet
under voltage,
over current,
over temperature,
over water
30
Materials & liquids
50 A
5V
250 W
0.7 mΩ
10 μHz up to 10 kHz
0.5% FSR
4 mA
76 μV
0 - 40 L/h
0 -100 L/h
0 - 5 bars
cell, humidifiers, heaters
Ethernet
under voltage,
over current,
over temperature,
over water
temperatures, pressures, flows
systems
FCT-150S/Z
40
Scanning
Max current
Max voltage
Electronic Load
Minimum load resistor
Built-in EIS analyzer
Current measurement accuracy
Current resolution
Potential resolution
Fuel gas flow control
Oxidant gas flow control
Back pressure control
5 temperature control
Interfaces
Safety Alarms with automatic N2 purge
FCT-50S/Z
Gas control and display
independent for each cell
and each gas
Facilities
FC-Lab
-Im(Z)/mOhm
Specifications
test stations
Specifications
ELECTROCHEMISTRY INSTRUMENTS
26/27
Impedance analyzer
potentiostats/galvanostats
Conductivity meter
Single Applications
potentiostats/galvanostats
Ionic liquid study
Organic electrolyte study
Liquid conductimetry
Generator
Frequency range
Voltage range DC
Voltage range AC
Measurement ranges
Frequency Range: 10 μHz to 35 MHz
±100 μV to ±10 V
100 μV to 10 V
Inductance
Capacitance
Resistance
Basic accuracy
10 nH to 10 kH
1 pF to 1000 μF
1 mΩ to 500 MΩ
0.1%
An EIS diagram (Nyquist and Bode) can be displayed for each measurement
point. Boosters
instruments
Specifications
The Conductimetry system can accommodate up to 10 cells and works in
the temperature range from -40 °C to +150 °C with a high accuracy level of
±0.2 °C.
High current
Two main sample holders are proposed: HTSH-1100 for high temperature use
and CESH for ambient temperature use with maximum temperature of 150°C.
MCS 10 is a multichannel conductivity spectrometer dedicated to study ionic
liquids and liquid electrolytes over a wide temperature range.
The MCS 10 consists of three integrated components:
test stations
The MTZ-35 can be coupled with the High Temperature Furnace HTF-1100
in order to investigate materials properties over a wide temperature range
(ambient to 1100°C).
Fully Integrated Multichannel Conductivity Spectroscopy
Battery
MTZ-35 is an impedance analyzer dedicated to material characterization over
the frequency 10 µHz to 35 MHz.
MCS 10
MCM 10: FRA-based impedance analyzer with ten channels
WTSH 10: Wide Temperature Sample Holder with ten slots
HTCC: High Temperature Conductivity Cells – Platinized/
Pt Parallel Plate Electrode
package
35 MHz Impedance Analyzer
Ceramics
Sensors
Polymers
Nano materials
Solar/photovoltaic cells
Rubbers
Glues
Epoxies
Liquid crystals
Ferro electrics
Biological cells
Polar liquids....
Software
MTZ-35
Multi Applications
High Temperature Sample
Holder (HTSH-1100)
Controlled Environmental
Sample Holder (CESH)
Operating temperature
From Ambient to 1100 °C
HTSH-1100: 097-120
From Ambient to 1100 °C
Surface Sample Holder: 097-150/1
Bulk Sample Holder: 097-150/2
From -40 °C to 150 °C
Features
Controlled through MT-Lab software/MTZ-35
Temperature Scan: adjustable from 0.1 °C/min to 20 °C/
min
Controlled atmosphere with quartz tube (Tmax= 900 °C)
Two or four points measurements set-up
Controlled atmosphere
Two or four points measurements set-up
Cell type
Connections
Cell factor
Minimal sample volume
Parallel plates platinized platinum on glass holder
2-wire connections
K = 1 (nominal)
0.5 - 1.0 mL
test systems
model name / part number
HTF-1100: 097-110
-40 °C to +150 °C
± 0.1 °C
PT1000
10
290 x 340 x 375 mm (W x D x H)
systems
CESH on its base
Temperature range
Temperature Accuracy (typ.)
External input Auxiliary
Number of slots
External Dimension
HTCC
Materials & liquids
WTSH 10
7 ranges from 0.2 - 2 μS/cm, to 0.2 - 2 S/cm
<4 % of the 2 μS/cm and the 2 S/cm range
<2 % of the 20 μS/cm and the 0.2 S/cm range
<1 % of all other ranges
Scanning
Conductivity ranges
Conductivity accuracy
HTF-1100
Product
Furnace
test stations
MCM 10
HTSH-1100
Furnace and sample holders
Fuel cell
Specifications
ELECTROCHEMISTRY INSTRUMENTS
28/29
potentiostats/galvanostats
Scanning systems
Modular systems for the electrochemistry at the local scale
M470
The M470 achieves the perfect balance of scan speed, resolution and accuracy
to deliver a new standard in spatially resolved electrochemical measurements.
nA
The SP-300 hardware interface module plugs directly into the M470 modular
chassis and provides all the required connections to interface the analogue signals,
and control functionality required by the system.
instruments
package
6 available techniques
To facilitate mounting of the SP-300 low current amplifiers locally to the scanning
probe cell connections, adjustable stands and brackets are provided which mount
directly to the M470 base plate.
- SECM
- LEIS
- SVET
- SDS
hardware interface
Tools
kΩ cm²
57
High current
The M370 is a modular configurable system which will perform all the key scanning probe electrochemical techniques and laser-based non-contact surface profiling.
The M370 is available in any or all of the six configurations (SECM, SVET, SKP, LEIS, SDS, OSP) and may be upgraded at a later date by subsequent purchase of any combination of the available techniques.
Software
Selecting the SP-300 option offers further dc current measurement sensitivity and
increased EIS bandwidth. Current SP-300 owners have the option of purchasing the
M470 system with a hardware interface to connect their existing system.
Versatility and precision
test stations
Stand for ease of use
M370
6 techniques
100 nm
70 mm
2 mm/s
n.a.
±2 V
20 mA to 1 nA
16-bit
n.a.
test stations
M370
M470
9 techniques
20 nm
110 mm
10 mm/s
yes
±10 V
1 A to 1 pA
24-bit
up to 1 MHz
Battery
Number of techniques
Positioning resolution
Scanning range
Max. scan speed
Piezo positioning
Potential range
Current ranges
Analog to digital converter resolution
Impedance ability
n.a.: not available
M470 is now available with a choice of potentiostats/galvanostats/FRAs.
The required SP-300 configuration is one or two channel boards with impedance
ability and ultra low current options.
- ac-SDS
- SKP
- OSP
Specifications
M470 and SP-300 are now compatible
Both the higher specification SP-300 standalone potentiostat/galvanostat/FRA and
the original model 3300, integrated into the M470 chassis, are now supported.
- LEIS
- SVET
- SDS
Boosters
- SECM
- ac-SECM
- ic-SECM
Multi 9 available techniques
Fuel cell
SECM area scan
mm
23
- SKP
- OSP
A wide variety of optional accessories are also available, including various probe options, cell options (environmental TriCell™
and μTriCell™), long working distance optical video microscope
(VCAM3) and 3D shaded surface rendering software (3DIsoPlot™).
test systems
5
0.7
Resolution Applications
Scanning ElectroChemical
probe size bio electrochemistry,
SECM
Microscopy
corrosion, fuel cells,
batteries, catalysts
topography or reactivity probe size bio electrochemistry,
ac-SECM alternating current
Scanning ElectroChemical
(no mediator required)
corrosion, fuel cells,
Microscopy
batteries, catalysts
topography and
probe size bio electrochemistry,
ic-SECM intermittent contact
Scanning ElectroChemical
reactivity
corrosion, fuel cells,
Microscopy
batteries, catalysts
Localised Electrochemical
local impedance of the
tens of µm corrosion, coatings,
LEIS
Impedance Spectroscopy
sample
catalysts
SVP (SVET) Scanning Vibrating Electrode electrochemical activity 10-15 µm corrosion, coatings,
Technique
catalysts
Scanning Droplet System
dc electrochemistry in a hundreds corrosion, coatings
SDS
droplet of electrolyte
of µm
alternating current
impedance in a droplet hundreds corrosion, coatings
ac-SDS
Scanning Droplet System
of electrolyte
of µm
Scanning Kelvin Probe
work function difference probe size corrosion, coatings,
SKP
/ topography
semi-conductors,
catalysts
Optical Surface Profiler
topography
20 nm
any field
OSP
Materials & liquids
-
0.00
The fast precise closed loop positioning system is designed specifically for the demands of scanning probe electrochemistry with nanometer resolution.
Information
reactivity
12
0
mm
1.80
m
m
0.7
3
OSP area scan
-0
.75
0.00
10
46
mm
µm
mm
Scanning techniques
-3.75
3.65
systems
5
0.7
Scanning
11
1.50
potentiostats/galvanostats
M470 is the 4th generation of scanning probe systems, which includes a high-resolution scanning stage and additional probe techniques.
The table below summarizes the techniques, the type of information that can be obtained, the smallest size of the features that can be detected and the typical applications.
22
Ultra high resolution scanning stage with additional techniques
Single The potentiostat/galvanostat give an average response of the electrode material
and it is considered that it is homogeneous. However, for optimization purposes,
it might be interesting to confirm this homogeneity and to study the spatial
dependence of the electrode properties. Our local electrochemistry platform is a modular system that can include up to 9 techniques. mm
LEIS area scan
ELECTROCHEMISTRY INSTRUMENTS
30/31
Sales & technical contacts
Bio-Logic Science Instruments is present in most countries through an extensive distribution network
Headquarters
Bio-Logic SAS
1, rue de l’Europe - 38 640 Claix
France
Phone:+33 476 98 68 31
Fax: +33 476 98 69 09
Affiliate offices
Bio-Logic USA, LLC
P.O.Box 30009 - 37 930 Knoxville
USA
Phone:+1 865 769 3800
Fax: +1 865 769 3801
Brochure released on july 2015
Bio-Logic Science Instruments Pvt Ltd
304,Orion Business Park, Next to Cine Wonder,
G. B. Road, Thane(W), 400 607 Mumbai
India
Phone:+91 2225842128
www.bio-logic.info
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

advertising