Presentation is loading. Please wait.

Presentation is loading. Please wait.

Work Package 3 On-detector Power Management Schemes ESR Michal Bochenek ACEOLE Twelve Month Meeting 1st October 2009 WPL Jan Kaplon.

Similar presentations


Presentation on theme: "Work Package 3 On-detector Power Management Schemes ESR Michal Bochenek ACEOLE Twelve Month Meeting 1st October 2009 WPL Jan Kaplon."— Presentation transcript:

1 Work Package 3 On-detector Power Management Schemes ESR Michal Bochenek ACEOLE Twelve Month Meeting 1st October 2009 WPL Jan Kaplon

2 Aim of work Development of new, efficient power distribution schemes allowing for major reduction of amount of material inside the particle detectors DC-DC conversion technique serial powering scheme Objective; development of radiation-tolerant ASIC building blocks for upgraded front end electronics for ATLAS SCT

3 ABCN, a prototype chip for Si strip readout in Upgrade Inner Tracker  Binary readout  Front-end optimised for short strips  Positive or negative input charge  Readout clock up to 160 Mbits/sec  250 nm CMOS (IBM) technology  Compatible with serial powering scheme and DC/DC converters (high filtering efficiency of Linear Regulator) Analogue supply (2.2V) obtained from 2.5V digital power rail (shunt in case of serial powering or DC-DC converter) by means of Linear Voltage Regulator

4 Next step; ABCN in 130 or 90nm Motivation; lowering power consumption (lower voltage supply, better noise  power figure) Change in overall voltage supply from 2.5V to 1.2V, digital part supply with 0.9V (further reduction of power reduction)  this imply the change in the currently adopted power distribution schemes (both DC-DC and serial approach)

5 Possible power schemes for ABCN in 130nm, serial powering vddd gndd Vdd(a) gnda Fully integrated Shunt Regulator ABCN Digital ABCN Analoge 0.9 V 1.2V1.2V Voltage Regulator DC-DC Charge pump 1.5V1.5V Designed by M. Bochenek ABCN

6 Possible power schemes for ABCN in 130nm, DC-DC approach 2.8V gnd DC/DC buck converter on module ABCN Digital 0.9 V Voltage Regulator 1.2 V ABCN Analog DC-DC Step-down /2 2V gnd DC/DC buck converter on module DC-DC Step-down /2 1.4 V1.4 V 10V Designed by M. Bochenek ABCN

7 Architecture of a step-down DC-DC converter The core of the DC-DC step-down converter is built of four transistors (one PMOS and three NMOS) and three external SMD capacitors. The whole circuit is supplied with 2.0 V. Due to the better driving capability of switches, working with lower output voltage, there is no need to use any level shifters. The output voltage is as high as 920 mV for a nominal current, which is 60 mA, but the converter can operate at 100 mA with power efficiency up to 88 %. 480um 200um

8 Step-up charge pump The switched capacitor step-up charge pump shown is based on the voltage doubler circuit. The main part of the circuit consist of two cross- coupled NMOS transistors (M1 and M2), four PMOS transistors working as serial switches (M3 – M6), three external SMD capacitors (CPUMPX and CLOAD) and one capacitor integrated on the chip (C pol). The optimized working frequency is around 500kHz. Due to the poor driving capability of the PMOS serial switches, two level shifters are needed. Those voltage shifters require two voltage supplies, the input signal voltage supply (0.9 V) and the output signal voltage supply (VOUT = 1.6 V) taken from the output of the charge pump. Minimum efficiency 84% over a full corner sweep

9 To be done Implementation of the fully integrated shunt design from ABCN (250nm) in the 130 nm technology (3 possible architectures). Implementation of the serial regulator in 130 nm. Integration of a complete power management blocks (DC/DC, shunt, linear regulator) on the front-end prototype chip.

10 Summary of on-the-job training Training in schematic, simulation and layout tools (CADENCE/SPICE) Courses; – Advanced Engineering Course OPERATIONAL AMPLIFIERS: Theory & Design (10.11.2008 - 13.11.2008, Delft University of Technology, Delft, The Netherlands) – Adaptive Power Management Course (8.02.2009, ISSCC, San Francisco, CA, United States) – Low-voltage and Mixed Signal CMOS Circuit Design Course (12.02.2009, ISSCC, San Francisco, CA, United States) – EIROforum School of Instrumentation (ESI) (11.05.2009 - 15.05.2009, CERN, Geneva, Switzerland) – Low-Power, Low Voltage Analog IC Design (22.06.2009 - 26.06.2009, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland)

11 Deliverables TC31 (month 6), Training courses in microelectronics design methods, CAD tools, design of circuits for regulators, etc (completed) – Advanced Engineering Course OPERATIONAL AMPLIFIERS: Theory & Design (10.11.2008 - 13.11.2008, Delft University of Technology, Delft, The Netherlands) – Adaptive Power Management Course (8.02.2009, ISSCC, San Francisco, CA, United States) – Low-voltage and Mixed Signal CMOS Circuit Design Course (12.02.2009, ISSCC, San Francisco, CA, United States) – Low-Power, Low Voltage Analog IC Design (22.06.2009 - 26.06.2009, Ecole Polytechnique Fédérale de Lausanne, Lausanne, Switzerland) W31 Participation in TWEPP workshop (completed) – Paper “An integrated DC-DC step-up charge pump and step-down converter in 130 nm technology” presented on Topical Workshop on Electronics for Particle Physics (TWEPP09) (21.09.2009 – 25.09.2009, Paris, France)

12 Secondment The secondment is planned at AGH, University of Science and Technology, Krakow; Preferred duration of the secondment is 3 months at the end of the ESR contract Plan of activities anticipated for the secondment: – Participation in preliminary tests of full ATLAS SCT readout chips integrated with the power distribution system designed by the ESR during his contract at CERN, – Preparation of the final report on milestones and deliverables for the European Union Committee, – Passing final obligatory exams before a defence of a doctoral thesis.

13 Training by Visitor Scientist A visit of senior scientist from AGH University of Science and Technology, Krakow is to be organised.


Download ppt "Work Package 3 On-detector Power Management Schemes ESR Michal Bochenek ACEOLE Twelve Month Meeting 1st October 2009 WPL Jan Kaplon."

Similar presentations


Ads by Google