Lehrstuhl
Kognitive Integrierte Sensorsysteme
Prof. Dr.-Ing. Andreas König
Lehrstuhl
Kognitive Integrierte Sensorsysteme
Prof. Dr.-Ing. Andreas König
Labor Mikroelektronik-Vertiefung (L4)
Das Labor wird gemeinsam vom Lehrstuhl Integrierte Sensorsysteme und dem Lehrstuhl Entwurf Mikroelektronischer Systeme betreut. Die Aufstellung aller Versuche und organisatorische Informationen finden Sie hier.
The contributed experiments to the Microelectronic Lab of the Integrated Sensor Systems group will be briefly presented with additional information in the following.
Instructor: Prof. Dr.-Ing. Andreas König
Lab Supervisor: N.N.
Consultations: During the lecture period every Monday, 13:00-14:00, 12/455, else according to bulletin announcement or personal appointment (koenig@eit.uni-kl.de)
Lab Experiments of the Integrated Sensor Systems Group:
Experiment 1: Digital Layout Extraction and Circuit Simulation. Supervisor: N.N., Room 12/449, Phone 4955, e-mail:
The lab introduces to digital full-custom layout and the deviations encountered due to additional parasitics in post-layout with regard regard to schematic simulation. The digital encoder block of a 3-bit flash ADC designed in a contemporary 0.35 um CMOS technology serves as a vehicle for the lab.
Experiment 2: Programming and Characterization of Reconfigurable Operational Amplifiers. Supervisor: N.N., Room 12/449, Phone 4955, e-mail:
This lab is a spin-off from ISE research activities and the TESYS course. A digitally programmable/evolvable chip containing several operational amplifier structures will be programmed and resulting specification values will determined by measurement activities. More information can be found here.
Experiment 3: Reconfigurable Wireless Sensor Systems and Networks. Supervisor: N.N., Room 12/449, Phone 4955, e-mail:
The lab employs commercial system modules PSoC FIRSTTOUCHTM Starter Kit (CY3271), the Wireless Expansion Kit, and the Environmental Sensing Kit of Cypress Semiconductors Corporation including PSoC reconfigurable chips combined with several sensor and wireless chips, e.g., a wheather station with temperature, pressure, and moisture monitoring capability. The lab participants will establish and apply a wireless sensor network and eventually will reconfigure PSoC units. Additionally, the topic of energy harvesting for self-sufficient WSN will be addressed. One PSOC wireless sensor node will be supplied in the lab by a Micropelt thermoelectric harvester.
It is gratefully acknowledged, that the employed kits are a donation of Cypress Semiconductors Corporation.
Additional experiments on subjects such as chip test emplyoing an ATE-system, characterisation of semiconductor/sensor structures employing a Waferprober as well as on Process- and device simulation are currently under preparation.
Readings
will be recommended in the experiment documentation and task descriptions
Prerequisites:
Elektronik I und II, Messtechnik I und II or equivalent courses
Associated courses:
TESYS, HEIS
Following courses:
Sensor signal processing, Neurocomputing
Examination: oral examination and successful experiment conduction
Course number: 85-656
Course materials:
Lab materials can be downloaded here:
