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Calorimeter

Bomb Calorimeter, Micro Reaction Calorimeter
Isothermal Titration Calorimeter, Cement Calorimeter, Bio Calorimeter
IBC Isothermal Battery Calorimeter

IBC - 등온배터리칼로리미터, Isothermal Battery Calorimeter Cell format: Prismatic

충전 / 방전 프로토콜 중에 등온 조건에서 열 방출을 측정합니다. 작은 prismatic cell용으로 설계되었습니다.
IBC-PL은 배터리 충 방전 시 발생하는 열을 정확하고 쉽게 측정합니다.

배터리의 충방전 시 발생하는 발열 현상은 대부분 내부 임피던스로 부터 기인합니다. 다양한 구동 온도에서 이 열의 분석은 팩 또는 모듈의 셀에 대한 효율적인 열적 특성 분석에 매우 중요한 역할을 합니다.

측정 온도 범위가 제한되어 있으며 배터리 분해 또는 고온이 발생할 수 있는 abuse test에 적합하지 않습니다만, 등온 열량계는 단열 열량계보다 감도가 높습니다. .

 

Cell format: Large Prismatic

  • Accomodate battery sizes up to 300 x 300 x 40mm
  • Temperature range: -30°C to 60°C
  • Dynamic range: 200mW to 100W
  • Suitable for heat capacity measurement, cycling and isothermal tests

 

Features

  • Accurate heat measurement down to 200mW over temperature range
  • Wide dynamic range up to 100W
  • Supplied with refrigerated circulator
  • Small footprint
  • Windows based control software, USB connection

 

Specification

Max Temperature (°C)

60 °C

Min Temperature (°C)

-30 °C

Temperature Stability (°C)

0.05 °C

Refrigerated recirculator required

Yes

Calorimeter chamber diameter (mm)

300 x 300

Calorimeter chamber depth (mm)

40

Number of sample chambers

1

Number of reference chambers

0

RMS Noise under controlled ambient conditions

200mW

Max heat detection

100W

Inegrated Cycler

No

Min Current

Defined by cycler

Max Current

20A

Current resolution

Defined by cycler

Internal wiring (force)

N/A

Internal wiring (sense)

N/A

Heat capacity measurement capability

Yes

Heat cut out

No

NPurge

Yes

External cycler terminals

No

Footprint (Width x Height x Depth)

46 x 61 x 36 cm (18 x 24 x 14 inch)

Weight

25 kg (56 lbs)

*Specification above subject to change

 

등온 배터리열량계 Isothermal Battery Calorimeter Cell format: Prismatic
Measure heat release under isothermal conditions during charge/discharge protocols. Designed for small prismatic cells.
The IBC-PL provides accurate and easy testing of heat output from charging and discharging a single battery.

Heat occurring during the charging and discharging of batteries is largely due to their internal impedance. Characterisation of this heat at different operating temperatures is vital for efficient thermal mangement of cells in packs or modules. 
Isothermal calorimeters have higher sensitivity than adiabatic calorimeters. Their temperature range is limited and they are not appropriate for safety abuse testing when battery disintegration or high temperatures may result.
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