Chroma 17010 Battery Reliability Test System User Guide
- May 15, 2024
- CHROMA
Table of Contents
- BATTERY RELIABILITY TEST SYSTEM
- KEY FEATURES
- APPLICATIONS
- Feature Highlights – Ultra High Precision Charge/Discharge Tester
- Feature Highlights – 17010 Series
- System Integration and Protection
- Battery LEx Software
- Lithium Battery Test Applications
- Lithium Battery Test Applications
- Battery Cell Testing Data Logger
- Battery Cell Test System Auto Calibrator
- Environmental and Eaternal Specifications
- Ordering Information
- CUSTOMER SERVICES
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
Chroma 17010 Battery Reliability Test System
BATTERY RELIABILITY TEST SYSTEM
MODEL 17010
Chroma 17010 Battery Reliability Test System is a high-precision system
designed specifically for testing lithium-ion battery (LIB) cells, electric
double-layer capacitors (EDLCs), and lithium-ion capacitors (LICs). The test
equipment is suitable for product development and quality control by providing
characteristic research, cycle life testing, product screening, and quality
assessment. Chroma 17010 system provides two design architecture types. The
linear circuit series produce low output noise and high measurement accuracy,
suitable for reliability evaluation of small and medium-sized energy storage
components in development. The regenerative AC/DC bi-directional series with
power saving and low heat generating features fit standard product life
evaluation as well as medium and large-sized energy storage components or
power battery cell testing.
The Chroma 17010 system adopts the Battery Lab Expert (Battery LEx) software
platform, which allows users to quickly reference existing test recipes or add
new ones through a multi-layer recipe structure, edit and modify projects,
manage individual DUT database, and use shared recipes for different DUTs. In
addition to the comm on charge
and discharge test steps, Battery LEx also combines C-rate, OCV-SOC, Q%,
waveform simulation, and chamber control modes, suitable for compliance
testing to international test standards such as USABC, IEC, and GB/T as well
as various other test applications. The test execution and monitoring design
employs a group management method, allowing users to easily track the test
status. Various controls can be executed during the test, including starting,
pausing, resuming, step skipping, reservation pausing, specific starting.
The Chroma 17010 system integrates a high-precision and multifunctional data
logger, which can measure the temperature, voltage, and pressure of the DUT in
realtime and in turn serve as an advanced cutoff and protection condition. It
also supports the integration of various brands safety chambers. Users can
issue commands through safety chamber control steps, with builtin chamber
synchronization and secondary adjustment functions that enhance operational
convenience.
Chroma 17010 system provides three safety mechanisms: software/hardware
detection, equipment abnormality monitoring, and optional independent relay
hardware detection to ensure the safety of LIB cells tests.
KEY FEATURES
- High accuracy output and measurement up to ±0.01% of F.S.
- Fast current response up to <100µS
- High sampling rate (10mS)
- High single point transient sampling rate (1mS)
- Integrating up to 96 channels
- Channel parallel output up to 1200A
- High-efficiency charge and discharge with low heating
- Energy recycling during discharge (AC/DC bi-directional regenerative series)
- Ripple emulation from 100Hz~20kHz, 75App
- Waveform simulation (current/power modes)
- Multi-level safety protections
- Integrable data logger and chamber
- Compliant to IEC and GB/T standards
APPLICATIONS
- Electric vehicle
- Electric scooter/bike
- Energy storage system
- Power tools
- Quality inspection
- Academic research
Feature Highlights – Ultra High Precision Charge/Discharge Tester
17208M-5-12C
The Chroma 17208M-5-12C is an ultra-high precision programmable charge/discharge tester specifically designed for high-precision measurement applications. Common applications include Coulombic Efficiency (CE) analysis, Incremental Capacity Analysis( ICA), and Differential Voltage Analysis (DVA), where the instrument is required to measure the voltage and capacity of the battery for a long time with high levels of stability, precision and accuracy to obtain high quality test data without post-processing. The Chroma 17208M-5-12C not only has four current ranges (12A, 4A, 0.4A, 40mA), but also has a voltage measurement range of 0 to 5V for charge/discharge. Each channel is equipped with shielded wiring that isolates the device from noise and improves measurement quality.
High stability, high precision and high accuracy Through meticulous circuit and mechanism design, the 17208M-5- 12C effectively blocks the influence of waste heat on high-precision circuits and components, improving measurement stability during time consuming tests. In addition, the measurement accuracy of up to ±0.01% of F.S. ensures the consistency of each test, while the measurement precision of up to ±0.002% of F.S. guarantees the repeatability of each measurement value.
- ±0.01% of F.S. measurement accuracy
- ±0.002% of F.S. measurement precision
High resolution and low output noise
The 17208M-5-12C adopts a 24-bit ADC to improve the measurement resolution and
provide users with highly granular test data, accurately presenting the actual
electrical signal of the DUT.
- Voltage measurement resolution up to 1µV
- Current measurement resolution up to 0.01µA
Effectively simplify DVA test data processing
Differential Voltage Analysis (DVA) is a method commonly used to evaluate
battery aging. However, poor device accuracy and precision specifications
often make it difficult to identify characteristic peaks, requiring a
significant amount of human resources for smoothing algorithms and bearing the
risk of curve distortion. The 17208M-5-12C provides stable full-range current
output throughout the test, which ensures accuracy and eliminates the problem
of excessive noise caused by measurement fluctuations while obtaining clearly
identifiable characteristic peaks in DVA curves.
Feature Highlights – 17010 Series
Multiple Current Range Design
-
Quick switching of current ranges:
Chroma 17010 series provide multiple current outputs and measurement range switching, fitting test plans with both large and small currents. At the start of a test step, the system will detect the output current and then automatically and quickly switch to the appropriate current range. This improves the test accuracy and resolution for highly accurate test data. -
Automatic range switching under constant voltage mode:
Chroma 17010 linear circuit models support automatic switching of the current range in the constant voltage test mode, without any output interruption. This is perfect for applications such as float charging or potential regulation, which require long- term and highly stable testing of extremely small current output.
High Stability of Long-term Output
Chroma 17010 is equipped with low output noise and high measurement accuracy.
The test current and voltage data can be converted into highly accurate and
clear characteristic peaks to efficiently research the aging mechanism of Li-
ion batteries.
High-speed Sampling Technology
Chroma 17010 uses high-speed voltage and current sampling with double integration of computing to capture transient changes in the test without distortion. The advanced test system provides more accurate capacity calculations to solve the issue that general battery test equipment only use the report sampling speed to record key data, causing large cumulative errors.
- Hardware internal voltage/current sampling rate: 1mS
- Report single point transient sampling rate: 1mS
- Report sampling rate: 10mS
General Testers Charging/Discharging Sampling Rate
Chroma 17010 Charging/Discharging Sampling Rate
Super Charge/Discharge Output Mode
Chroma 17010 regenerative models provide up to 30 sec.
super output functionality. For short-time & high-current pulse applications,
the super mode can be set and executed directly through steps, and provides an
even wider range of current and power usage.
- 17212M-6-100S: CC and CP 120% charge/discharge output
Hybrid Pulse Power Characteristic (HPPC)
Fast Current Response ( <1mS)
Chroma 17010 regenerative models are provided with current response time in
less than 1mS, which can more realistically simulate the instantaneous peak
current of battery charging and discharging behavior when driving, and also
meets NEDC, FUDS, and DST test standards.
- 17212M-6-100S: 10% to 90% < 1mS
0~1200A Current Rise Time <1mS
Three Voltage Ranges
Chroma 17216M-10-6 model built in three voltage ranges, for more profuse product development applications.
- 0V~+5V: Half-cell, full-cell, EDLC testing
- 0V~+10V: Batteries in series, EDLC testing
- -5V~+5V: Symmetric battery testing
Dynamic Waveform Loading
Chroma 17010 can preload current and power dynamic charging/ discharging
waveforms. The system simulates acceleration, deceleration, up/downhill, and
other waveforms of real-life car driving conditions and then evaluates the
battery degradation and life.
- Dynamic/fixed time modes (min. output interval 10mS)
- Dynamic preloading of up to 6,400,000 data points per system
Dynamic Waveform Simulation
Energy Recycling
Chroma 17010 large current models have a high-precision, high efficiency and
power-optimized energy recycling architecture that achieve green and low-
carbon performance. The test system so avoids electricity waste heat due to
load consumption during discharge.
- DC: Automatically prioritize discharged energy to charging channels with >80% recycling efficiency.
- AC : Recover excess energy to the AC line, with >60% recycling efficiency.
- Feed back current to the grid with <5% total harmonic distortion
Energy Recycling Architecture
Ripple Emulation
The Chroma Ripple Current Test Solution is designed to superimpose AC current at frequencies from 100Hz to 20kHz to an existing 17010 charge and discharge system (Model 17212M-6-100S) to emulate the behavior of electric vehicle invertor.
- Ripple frequency from 100Hz to 20kHz, amplitude up to 75App ( parallel up to 150App )
- Independent AC/DC circuits for the lowest impact on DC charge and discharge cut-off judgement
- Ripple current superposition on various CC, CV, CP charge/discharge modes
Current Parallel Output
Chroma 17010 series support dynamic parallel functionality, which can connect
continuous idle channels in parallel and provide a larger current output.
Their characteristics not only improve the test versatility, but also suit a
variety of test objects.
Data Protection & Resume Mechanism
In case of power failure, the optional uninterruptible power supply (UPS) can
temporarily store test data in the IPC database. After power is restored, the
system will automatically obtain the resumed data status and continues testing
from the point of disruption. The report data will not be interrupted.
System Integration and Protection
Chroma 17010 supports integration of a variety of renowned environmental chambers and multi-functional data loggers. The Battery LEx software can simultaneously set parameters and monitor data, as well as automatically merge test data into the test report, thus providing users with the most complete test solution
Integrable data logger
- Recording temperature (ºC), voltage (V), pressure (mPa), force (kg).
- External real-time data can serve as cut-off or protection judgments (temperature)
System protection and abnormality detection
- Following the numerous built-in recipe protections, the protection mechanism monitors and triggers with a response speed of 1mS. An independent external voltage/temperature meter relay is optional to achieve reliable two-level protection.
- Real-time abnormality detection in each tester automatically detects deviations based on independent logic. When the system is interrupted, the test can be continued after the exception is eliminated without missing any data.
Integrable chamber and peripheral safety device
- The Battery LEx software provides built-in chamber setting controller and chamber control steps, which can control temperature and humidity, indicate the temperature control time, delay time, and standby temperature, as well as control timeout and over-temperature protections.
- To ensure consistency of the test state, the grouping management structure allows all testing channels in the same chamber to enter the temperature control phase at the same time.
- The built-in DI/DO function can be connected with smoke/gas detection, fire extinguisher, and alarms for over temperature, over-voltage, and open door. The system performs different levels of handling according to the degree of damage, including stopping the test or powering off. Alarm data can be sent remotely via e-mail.
Battery LEx Software
Battery Lab Expert (Battery LEx) is the testing software platform specially developed for Chroma 17010 and offers:
- Group testing: each group can control up to 96 channels and execute up to 50,000 steps
- Variable editing: using the data from the external data logger for flexible programming and complex applications
- Chamber integration: DI/DO amplification monitors the chamber’s status and protection mechanisms in real time
Project Browser
-
Easy management: up to 500 projects can be added, and corresponding test plans can be built according to different DUT types or test requirements.
-
Intuitive display and real-time modification: convenient for checking and adjusting DUT specifications, waveform simulation data, and recipe content in the test plan. Parameters can be adjusted and saved in real-time during browsing.
-
DUT database: create specifications for the devices to be tested, and quickly match parameter conditions when editing recipes.
Sharing of recipe tests is also facilitated. -
Operating condition simulation: import data points in xlsx format, and set time intervals (equal intervals/custom intervals), output multiplier, and data range.
Waveform Simulation Database
DUT Database
Project Browser
Recipe Editor
- Layered structure: up to 50,000 steps can be created in a test plan (SR->MR->TP)
- Easy creation: create new recipes to meet various types of test applications.
- Quick editing: quickly combine existed recipes to complete the test plan.
- Special notation for settings: provides special settings for C-rate/OCV-SOC/Q%/±V/variables when editing recipes.
- Variable settings and conditional cutoff function: provides 20 sets of variable definitions, including 2 sets of variable functions that can be used across sub-recipes. The transient capture function (1mS to 100mS) records the variable definition at the start/end of each step as a variable for secondary calculation.
Sub-Recipe / Main Recipe / Test Plan Editor
Variable Definition and Transient Capture
Recipe Executor
- Multi-channel group management
- Multi-group start
- Various control options: start, pause, resume, stop, reserved pause, specified start, skip to next step, pause and skip to next step, recipe preview
- Real-time test status: real-time display of test data for single channel and entire group
- Supports dynamic parallel setting
Recipe Executor
Real-time Chart Display
- Real-time data plotting: plots data in real time according to the sampling time, with a maximum of 36,000 data points per screen
- Multi-chart monitoring: displays up to 4 real-time screens, supporting up to 2 channels of test comparison per screen
- Graph capture: provides time-freeze function to save test curves
- Multi-axis analysis: provides dual-Y-axis data display
Real-time Chart Display
Test Report
- Automatic Export: automatically export to the user-specified path based on the defined export mode and filename
- Export modes: automatically export reports using sub-recipes as segment point, with options for exporting based on time settings automatically or manually
- The system can adjust effective digits in the data up to 9 decimal places
- Report types: channel report, step report
- Free adjustment of report items and column orders
Test Report Preview
Chamber Control and System DI/DO Signal Control
- Three control modes: chamber control steps, real-time remote control, maintenance mode
- Delay function: set a rest time after reaching the set temperature to ensure consistency between the temperatures of the chamber and the DUTs
- Cycle temperature setting: after reaching the set temperature, the intergrated data logger is used to adjust the chamber temperature according to the actual temperature of the DUTs, accurately harmonizing the temperature of the chamber and DUTs
- End-of-test setting modes: end temperature control, adjust to the specified temperature, or maintain temperature
- Dual protection control: over-temperature protection, temperature control timeout protection
- Device external control: provides three-color light signal control and relay signal control
- Synchronized temperature control: automatic sync. mechanism ensures that the chamber temperature control starts only when all channels reach the “temperature control step”, ensuring test consistency
- Temperature control inheritance: after the main control group test is completed, the chamber control right can be automatically inherited by other groups
Chamber Control Settings
Management
- Account and permission management: multiple login accounts and passwords and corresponding editing permissions can be set up.
- Alert notifications: email can be set up to provide warning messages
- Recipe transfer: import/export/move recipes and test plans
- Data management: administrators can set up automatic or manual deletion of system data
- Forced global protection: forced set up recipe protection to prevent human error and enhance test security
Test Plan Import/Export
Lithium Battery Test Applications
Differential Voltage (dV/dQ)
The key to plotting the d V/ d Q curve is to charge and discharge the battery
with a small current (<C/20) in order to eliminate polarization effects on the
test results. Chroma 17010 has low noise to draw high-definition dV/dQ vs. Q
curves, users can view and mark each characteristic peak in detail. The ageing
test allows users to analyze the battery’s aging system based on the
deviation and height of each characteristic peak.
Direct Current Internal Resistance (DCIR)
The battery internal resistance is rated to the charge/discharge rate that the
battery can be used for. The larger the internal resistance value, the lower
the efficiency and cause the temperature rises. ACIR measurement of
traditional 1KHz LCR meters can only evaluate the ohmic resistance (Ro) of the
battery that affects the instantaneous power output, but is unable to evaluate
the polarization resistance (Rp) produced during electrochemical reaction.
DCIR assessment includes ACIR and comes closer to the actual polarization
effect of the battery under continuous power application.
Chroma 17010 has two programmable DCIR test modes, and – with the variable
calculation function – can automatically obtain test results that meet the IEC
61960 standard.
- DCIR (1) is based on the voltage difference caused by one current change
- DCIR (2) is based on the voltage difference caused by the change between two currents
Li-ion battery Equivalent Circuit Model
DCIR Test (1)
DCIR Test (2)
Hybrid Pulse Power Characteristic (HPPC)
Chroma 17010 has a flexible editing program that can compile HPPC test steps,
as used by the U.S. Council for Automotive Research (USCAR) to evaluate the
battery performance of new energy vehicles. The purpose is to obtain the open
circuit voltage, ohmic resistance (Ro), and polarization resistance (Rp) data
of a specific depth of discharge within the operating voltage range, following
standard test methods. It establishes a functional relationship between the
depth of discharge and the charge/ discharge peak power, as an index to
evaluate the battery cell’s aging and output power capacity.
Battery Capacity
The capacity can be obtained by integrating current over time, from the start
of charging/discharging until the cutoff condition is reached. Common test
items include current ratio and temperature characteristics. Comparing the
results lets users analyze performance differences between products. Higher
accuracy of current/voltage measurement and faster sampling enable to
distinguish more accurately the differences in battery cell capacity
Battery Cycle Life
Cycle life is one of the most important test items for batteries. In
accordance with the experimental purpose, it tests the same battery through
repeated charge and discharge conditions until the capacity falls to 80%, and
then calculates the number of cycles. The cycle life test can be used to
evaluate battery performance or define proper conditions of use.
Coulombic Efficiency (CE)
CE is calculated by the charge/discharge capacity ratio when the battery is
fully charged and then fully discharged. Good batteries have higher CE, and
need high precision and stable equipment to distinguish differences. Chroma
17010 offers accurate CE testing that can estimate the battery lifespan with
only a few cycles.
Coulombic Efficiency Test
Charge & Discharge Rate
The battery is charged and discharged at different currents to evaluate how
its voltage platform and capacity maintain. Such test results are often used
for adjusting the proportion of active materials during product development as
well as for verifying performance of power batteries for rapid charging and
discharging.
Charge & Discharge Rate
Lithium Battery Test Applications
Chroma 17010 Battery Reliability Test System meets the verification requirements of most international regulations in charge/ discharge testing.
Type| Regulation| Standard Number AIEC 62660-1 2010| Test
Items
---|---|---|---
IEC| Secondary lithium-ion cells for the propulsion of electric road vehicles
— Part 1: Performance testing| 7.1 General charge conditions
7.2 Capacity
7.3 SOC adjustment
7.4.1 Power test method
7.5.1 Energy test method
7.6 Storage test
7.7 Cycle life test
7.8 Common tests
Secondary cells and batteries containing alkaline or other non-acid
electrolytes IEC 61960 2011 — Secondary lithium cells and batteries for
portable applications| 7.3 Discharge performance
7.4 Charge(Capacity) retention and recovery
7.5 Charge(Capacity) recovery after long term storage
7.6 Endurance in cycle
GB/T| Cycle life requirements and test methods for traction battery of
electric vehicle| GB/T 31484 2015| 6.1 Test conditions
6.2 Capacity and energy under room temperature (initial capacity and energy)
6.3 Power under room temperature (initial power)
6.4 Standard cycle life
6.5 Operating-condition cycle life
Electrical performance requirements and test methods for traction battery of
electric vehicle| GB/T 31486 2015| 6.2.4 Secondary cell charging
6.2.5 Discharge capacity under room temperature (initial capacity)
General specification of lithium-ion cells and batteries for mobile phone|
GB/T 18287 2013| 5.3.2.1 Charging methods
5.3.2.2 0.2 ItA discharge
5.3.2.3 Rated discharge
5.3.2.4 High temperature discharge
5.3.2.5 Low temperature discharge
5.2.3.6 Charge retention capability and recovery capacity
5.3.2.7 Storage performance
5.3.2.8 Cycle life
5.3.3.2 Steady damp-heat
USABC| Battery Test Manual
for 48 Volt Mild Hybrid Electric Vehicles| Rev.0 2017| 3.2 Static Capacity
Test
3.3 Hybrid Pulse Power
3.4 Characterization Test
3.5 Standard Self Discharge Test
3.6 Cold Cranking Test
3.7 Thermal Performance Test
3.8 Energy Efficiency Test
3.9 Operating Set Point Stability Test
3.10 Cycle Life Test
3.11 Calendar Life Test
Battery Test Manual
for 12 V Start/Stop Vehicles| Rev.2 2018| 3.2 Static Capacity Test
3.3 Constant Power Discharge and Charge Tests
3.4 Hybrid Pulse Power Characterization Test
3.5 Standard Self Discharge Test
3.6 Cold Cranking Test
3.7 Thermal Performance Test
3.8 Energy Efficiency Test
3.9 Operating Set Point Stability Test
3.10 Cycle Life Test
3.11 Calendar Life Test
Battery Test Manual for Electric Vehicle| Rev.3.1 2020| 3.2 Static Capacity
Test
3.3 High Rate Charge
3.4 Hybrid Pulse Power Characterization Test
3.5 Peak Power Test
3.6 Self-Discharge Test
3.7 Thermal Performance Test
3.8 Life Testing
3.9 Cycle Life Dynamic Stress Tests
3.10 Calendar Life Test
Battery Test Manual
for Plug In Hybrid Vehicle| Rev.3| 3.2 Static Capacity Test
3.3 Constant Power Discharge Tests
3.4 Hybrid Pulse Power Characterization Test
3.5 Self-Discharge Test
3.6 Cold Cranking Test
3.7 Thermal Performance Test
3.8 Energy Efficiency Test
3.9 Life Testing
3.10 Charge-Sustaining Cycle Life Tests
3.11 Charge-Depleting Cycle Life Test Profile
3.12 Calendar Cycle Life Test
Battery Cell Testing Data Logger
Chroma A172013 multi-channel voltage and A172014 multi-channel temperature data loggers can serve as auxiliary channels for the 17010 system, providing real-time temperature and voltage monitoring of the DUT during charge and discharge tests. Through the Battery LEx software, the data can be integrated into the test report and upper and lower limit protection can be set to ensure test safety.
- Each channel adopts independent 24-bit ADC sampling
- Equipped with cold junction compensation function
- Can be used as a standalone unit or connected to voltage or temperature modules, expandable up to 128 channels
Multi-Channel Voltage Data Logger A172013
Channels| 16
Number of Modules
Connected ‘ 1
| Up to 8 pcs
Interface| Ethernet
Measurement Range| ± 10V| I ± 5V| ± 1V 1 ± 0.5V| –
±100mV| I –±20mV
Accuracy *2| ± 0.015% of F.S.| ± 0.05% of F.S.
Resolution| 0.3mV| I 150pV| I 30pV| I 150pV| 3pV
I| 0.6pV
Max. Voltage
to Ground
| ±300V
Max. Voltage
between Channels
| -±250Vdc
Wire Connection| M3 screw
*Sampling Time 3| 10ms**
Note1: A172013 and A172014 modules can be integrated and used
simultaneously.
Note2: The accuracy specification does not include errors caused by the
testing cables, under the condition of 100ms sampling and 23±5℃ . Note*3: The
sampling time is for the single unit specification and does not include data
integration and transmission.
Multi-Channel Temperature Data Logger A172014 (Thermocouple Type)
Channels| 16
Number of Modules Connected 1| Up to 8 pcs
Interface| Ethernet
Measurement Range| Range| Measure Range
Measurement Range| K 100℃| -100℃ to 100℃
K 500℃| -200℃ to 1350℃
K 2000℃| -100℃ to 100℃
J 100℃| -200℃ to 500℃
J 500℃| -200℃ to 1200℃
J 2000℃| -100℃ to 100℃
T 100℃| -200℃ to 400℃
T 500℃| -200℃ to 400℃
T 2000℃| -200℃ to 400℃
Accuracy 2| ±0.05% of F.S. ±1˚C
Resolution| 0.1˚C
Temperature Transducer| J, K, T type Thermocouple
Wire Connection| M3 screw
Sampling Time *3| 10ms
Battery Cell Test System Auto Calibrator
Chroma A170103 is a complete automated calibration and verification equipment with a variety of high-precision calibration standard components built-in for programmable test tasks. Chroma A170103 applies to Chroma 17010 products up to 150A in order to ensure that the equipment maintains its high precision and traceability.
- Consistent standards verification: reducing human errors and test variables
- Efficient calibration and verification: cutting down labor costs
- Automated report generation: managing maintenance records and traceability
Specifications | 0-10V |
---|
Voltage
Current| 1mA/10mA/100mA/1A/6A/30A/150A (7 ranges)
Channels| 16CHs/time
Input| Single-phase AC 100V-120V / Single-phase AC 200V-240V ±10%
(manual switch)
Dimensions (W x D x H) (mm)| 600 x 900 x1100
Wei •ht (K•)| < 150
Equi •ment|
Standard| A170103, A820001 S/W, IPC & Windows 10 & Office, RS-485
card, 7230 I/O card
Option| 30ppm digital DMM, Monitor, Keyboard & mouse
Environmental and Eaternal Specifications
Environmental and External Specifications
Operating temperature| 0˚C~40˚C
Operating humidity|
Input| 3Φ 200~220Vac ± 10% VLL 3Φ 380~400Vac ± 10% VLL Frequency 47~63Hz
Dimensions (W x D x H) (mm)| 25U| 600 x 1100 x 1340
36U| 600 x 1100 x 1830
41U| 600 x 1100 x 2060
Weight (Kg)| ) 25U| <160
36U| <370
41U| <510
Ordering Information
System| 17010|
---|---|---
Model| Current Range| Voltage Range| Super
Mode| OV
Discharge| Regenerative
Mode| Channels| Rack
17216-6-6| 6A/1.2A/0.6A/1mA| 0-6V| –| —| —|
16/32/48/64/80/96| 19″ (25U)
(36U)
(41U)
17216-6-12| 12A/2.4A/1.2A/1mA| 0-6V| –| –| –|
16/32/48/64/80/96
17216M-10-6| 6A/0.2A/6mA/0.2mA| 0-10V / 0-5V /
±5V| –| Yes| –| 16/32/48/64/80/96
17216M-6-12| 12A/3A/1A/0.1A| 0-6V| –| Yes| –|
16/32/48/64/80/96
17208M-5-12C| 12A/4A/0.4A/0.04A| 0-5V| –| Yes|
–| 8/16/32/40/48/56/64
17208M-6-30| 30A/10A/0.1A/1mA| 0-6V| –| Yes| –|
8/16/24/32/40/48/56/64
17208M-6-60| 60A/15A/5A/0.5A| 0-6V| –| Yes| –|
8/16/24/32/40/48/56/64
17212M-6-100S| 100A/50A/25A| 0-6V| Yes| –| Yes|
12/24/36/48
Option
Model| Items| Channels
A172013| Multi-Channel Voltage Data Logger|
16/32/48/64/80/96/112/128
A172014| Multi-Channel Temperature Data Logger (Thermocouple Type)|
16/32/48/64/80/96/112/128
A170103| Battery Cell Test System Auto Calibrator| 16
A170105| AC & **DC Decoupling Module| 2
Model| 17208M-5-12C
---|---
–QoRage
Accuracy| ± 0.01% of F.S.
Precision| ±0.002% of F.S.
Range| OV-5V
Resolution| Setting| 10pV
Measurement| 1 pV
Current
Accuracy| ± 0.012% of F.S.*
Precision 1| ± 0.002% of F.S.
Range| 40mA| 400mA 4A| 12A
Resolution| Setting| 100nA| 1pA| 10pA| 100pA
Measurement| 10nA| 100nA| 1 pA| 10pA
Power|
Accuracy| ± 0.022% FS
Range| 0.2W| 2W| 20W| 60W
| Setting| 0.5pW| 5pW| 50pW| 150pW
Resolution| Measurement| 50nW| 0.5pW| 5pW| | 15pW
Minimum Data Sampling Time| 10mS
Current Rise Time (+10%-+90%)| < 1 mS
Model| | 17216-6-6| 17216-6-12| | 17216-6-12| | | |
---|---|---|---|---|---|---|---|---|---
Voltage| | ±0.015% of F.S.| | | | | | |
Accuracy| | Charge 0V~6V ; Discharge 1.5V~6V| | | | | | |
Range| | 1mV| | | | | | |
Resolution| Setting| Measurement 0.1mV| | | | | | |
Measurement| | | | | | | |
Current| | 6A : ±0.02% of F.S.
Others : ±0.04% of F.S.| 12A : ±0.02% of F.S. Others : ±0.04% of
F.S| | |
Accuracy| | 1mA| 0.6A| 1.2A| 6A| 1mA| 1.2A| 2.4A| 12A
Range| Setting| 1µA| 1mA| 1mA| 1mA| 1µA| 1mA| 1mA| 10mA
Resolution| Measurement| 0.1µA| 0.1mA| 0.1mA| 0.2mA| 0.1µA| 0.1mA| 0.1mA| 1mA
Power| | | | | | | | |
Accuracy| | 36W : ±0.035% of F.S.
Others : ±0.055% of F.S.| 72W : ±0.035% of F.S.
Others : ±0.055% of F.S.
Range| | 6mW| 3.6W| 7.2W| 36W| 6mW| 7.2W| 14.4W| 72W
Resolution| Setting| 1µW| 1mW| 1mW| 10mW| 1µW| 1mW| 10mW| 10mW
Measurement| 0.1µW| 0.1mW| 0.1mW| 1mW| 0.1µW| 0.1µW| 1mW| 1mW
Minimum Data Sampling Time 10mS| 10mS
Current Rise Time (+10%~+90%)| 500µS| 500µS
Model| 17216M-10-6| | 17216M-6-12
---|---|---|---
Voltage| |
Accuracy| | ± 0.015% of F.S.|
Range| OV- 10V, OV-5V or -5V-5V| | OV-6V
Resolution| Setting| | 1mV|
Measurement| | 0.1mV|
Current —RN| |
Accuracy| ± 0.02% of F.S.| ± 0.02% of F.S.
---|---|---
Range| 200pA| 6mA| 200mA| 6A| 100mA| 1A| 3A| 12A
Resolution| Setting| 0.1pA| 1pA| 0.1mA| 1mA| 0.1mA| 1mA| 1mA| 10mA
Measurement| 0.01pA| 0.2pA| 0.01mA| 0.2mA| 0.01mA| 0.1mA| 0.1mA| 1mA
Power
Accuracy| ± 0.035% of F.S.| | ±0.035% of F.S.
Range| 2mW| 60mW| | 2W| 60W| | 600mW| 6W| | 18W| 72W
Resolution| Setting| 1pW| 10pW| | 1mW| 10mW| | 0.1mW| 1mW| | 10mW| 10mW
Measurement| 0.1pW| 2pW| | 0.1mW| 2mW| | 10pW| 0.1mW| | 1mW| 1mW
Minimum Data Sampling Time| | | 10mS|
Current Rise Time (+10%-+90%)| | 100pS| | | 250pS
Model| 17208M-6-30
I| 17208M-6-60| 17212M-6-100S
---|---|---|---
Voltage
Accuracy| ± 0.015% of F.S.| ± 0.02% of F.S.
Range| OV-6V| Charge OV-6V ; Discharge 1.5V-6V
Resolution| Setting| 1mV| 1mV
Measurement| 0.1mV| 0.1mV
Current 1|
Accuracy| ± 0.02% of F.S.| ±0.02% of F.S.| ±0.05% of ES. .
2
Range| 1mA| 100mA| 10A| 30A| 500mA| SA|
15A| 60A| 25A| 50A 100A| 120A(ST)
Resolution| Setting| 1pA| 0.1mA| 10mA| 10mA|
0.1mA| 1mA| 10mA| 10mA| 1mA| 5mA 10mA|
10mA
Measurement| 0.1pA| 0.01mA| 1mA| 1mA| 0.01mA|
0.1mA| 1mA| 1mA| 0.1mA| 0.5mA 1mA| 1mA
Power **MI
Accuracy| ± 0.035% of F.S.| ± 0.035% of F.S.| ± 0.07% of
F.S. . 2
Range| 6mW| 600mW| 60W| 180W| 3W| 30W|
90W| 360W| 150W| I 300W I 600W| I 720W
Resolution| Setting| 1pW| 0.1mW| 10mW| 10mW|
1mW| 10mW| 10mW| 100mW| 10mW
Measurement| 0.1pW| 10pW| 1mW| 1mW| 0.1mW|
1mW| 1mW| 10mW| 1mW
Minimum Data Sampling Time| 10mS
Current Rise Time (+10%-+90%)| 250pS| 500pS| 1 mS**
Note1 : The accuracy is specified under the condition of 100ms sampling
and 23±5℃ , when the A172013 and A172014 modules are used together.
Note2 : Short-term output capability (ST) can output 120% constant
current/constant power in a maximum 30S within 60S. Current accuracy ±0.1% of
F.S., power accuracy ±0.12% of F.S.
- All specifications are subject to change without notice.
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