CryoComplete
from Lake Shore CryotronicsThe CryoComplete is a turnkey solution for electrical measurements in cryogenic environments.
- VPF-100 LN2 reservior cryostat (77 K to 500 K)
- Model 335 temperature controller
- Calibrated silicon diode
- M81-SSM-4 with BSC-10 and VM-10
- PC with MeasureLink™
Further information
The CryoComplete is designed as turnkey solution. While easy to use, the system’s performance doesn’t disappoint. Its industry-leading measurement electronics promote low-level DC measurements and three full channels of lock-in AC capability—the keys to unlocking difficult measurements. Best of all, our cryogenic experts have designed CryoComplete from top to bottom, using cryogenic best practices, to deliver end-to-end system specifications.
Standard system capabilities:
- VPF-100 cryostat with model 335 temperature controller and calibrated silicon diode:
- Operating temperature range: 77 K to 500 K
- Cryogen: Liquid nitrogen
- Sample environment: Sample-in-vacuum
- Temperature stability: 50 mK
- Pour-fill reservoir capacity: 1.2 L LN2
- Cooldown time: 15 min to 77 K
- Working time: 8 h
- Optical ports: 4 quartz windows
- Electrical sample mount: Pre-wired mounting plate with 8 contact pins
Resistance/I-V measurements:
- Measurements: 100 µΩ to 1 GΩ*
- Source modes: DC, sine, triangle, square
- Source ranges: 1 pA to 100 mA
- Source frequency: 100 µHz to 100 kHz (square <5 kHz)
*Upper impedance range limited to DC
- Measurement limit: 10 V maximum
- Input impedance: >10 GΩ (differential)
- Leakage current at sample: 50 pA at 10 V for coaxial or 50 fA at 10 V for guarded triaxial
- Voltage noise at sample: <5 nV/√Hz at 83 Hz
- Measure noise at sample (1/f): <100 nV
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| Measurement benefits | Common measurements | ||||||||
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| Simultaneous source/ measure | Synchronous source/ measure | Low-noise source/ measure | Dual AC/DC sourcing | Lock-in autoranging | Differential conductance, low-frequency | Differential conductance, high-frequency | Resistance, low-temperature | I-V characteristics | Thermal conductivity |
| Thermal transport | 1D materials, thermoelectric materials | X | X |
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| Materials research | Nanodevices, superconducting devices, nonlinear devices |
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| Materials development | Linear systems, sensors |
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Contact
Quantum Design GmbH
Eszak u. 24
H-1038 Budapest
Hungary
| Phone: | +36 1 2402711 |
| Fax: | +36 1 2402711 |
| E-mail: | hungary@qd-europe.com |
