Presentation is loading. Please wait.

Presentation is loading. Please wait.

Radiation hardness of the 1550 nm edge emitting laser for the optical links of the CDF silicon tracker S. Hou 15-Jun-2004.

Published byErnest Norman Modified over 7 years ago

Similar presentations

Presentation on theme: "Radiation hardness of the 1550 nm edge emitting laser for the optical links of the CDF silicon tracker S. Hou 15-Jun-2004."— Presentation transcript:

1 Radiation hardness of the 1550 nm edge emitting laser for the optical links of the CDF silicon tracker S. Hou 15-Jun-2004

2 Optical links at CDF Dense Optical Interface Module (DOIM) Byte-wide parallel optical link 8-bits + clock 53 Mbyte/sec, BER  10 -12 Laser transmitter Edge-emitting diode array Ribbon fiber cable (22 m) multi-mode Ge doped PIN receiver

3 DOIM modules Laser diode transmitters on Port Cards inside detector Total 570 transmitters 128 Port Cards, PIN diode receivers on FTM board out in VME crates

4 Laser transmitter InGaAs/InP Edge-emitting laser diode array 1550 nm wavelength 12-ch diode array, 250  m pitch Bare die power,  1 mW/ch @20mA Custom made by Chunghwa Telecom biCMOS ASIC driver bipolar transistors, AMS 0.8  m process Inputs: Diff. ECL or LVDS differential  100 mV Enable by TTL low Output light: adjustable by ~2mA/0.1V At V cc -V LD =3V, 20mA/ch

5 Laser transmitter assembly Die-bond / Wire bond laser-diode array on BeO submount driver chip on substrate fibers on V-groove Alignment fibers to laser emitting facets Ligut ouput at fiber end: 200 ~ 800  W/ch

6 Receiver module Die-bond / Wire bond PIN-diode array on Al 2 O 3 submount driver chip on substrate fibers on V-groove to PIN diodes InGaAs/InP PIN diode 12-ch array, 1550 nm by TL, Chunghwa Telecom. Operation condition : light on: 50 ~ 800  W light off:  10  W  1.1 W/module Outputs : Nine independent diff. ECL

7 Laser transmitter characteristics Inputs: ECL or LVDS signal TTL-enable Light by O/E probe Input ECL TTL enable

8 Laser transmitter current balance Constant Current through LDA or dummy 50  max.  I ~ 7mA/module (<4%) Prevent wirebond resonance Current probe O/E light TTL enable Broken bond observed for 2 mm AlSi bond at 15 kHz

9 Laser diode: L-I-V Laser light at I,V and Temperature I-V approximately linear Duty cycle stable output to input 50% Linear to temperature Temp ( o C)

10 Rad-hard requirement at CDF Transmitters on Portcard at r= 15 cm 450 pb -1 delivered to CDF TLD (thermoluminescence Dosimeters) measurement ~ 15 rad / pb -1 (5.8E8 MIPs/cm 2 ) TLD radiaition measurement in CDF tracking volume (http://ncdf67.fnal.gov/~tesarek/radiation) Portcard position CDF luminosity

11 Bulk damage to laser light yield Laser transmitter specification : 200 krad tolerance Bulk damage is dominant Ratio of light drop is consistent for a module, indep. of light power Degradation  10% for 200 krad INER proton 30 MeV DC mode 200 krad=1.1E12/cm 2 (8E12 /cm 2 1MeV n) UC Davis proton 63.3 MeV AC mode on PortCard 200 krad=1.8E12/cm 2 (12E12 /cm 2 1MeV n)

12 INER 30 MeV proton Irradiation transmitter in DC mode online monitoring light level & temp. total 1.8 Mrad, 1E13/cm 2 (30 MeV p) 24 hrs annealing with 10% recovery irradiated in 12 cycles, 1 min beam-on 4 min off ripple due to temp. rise at beam-on by 1 o C to 25 o C

13 ECL 25MHz inputs O/E probing for biCMOS driver wave form IUCF 200 MeV proton Irradiation Before irradiation at fluence=3.0x10 13 (1.4 Mrad GaAs 1.8 Mrad Si)

14 Irradiation study : AC,DC modes AC to DC mode Cumulative fluence: 6.8, 13.6 E12/cm2 200 MeV p ( 48, 97 E12/cm2 1MeV n 320, 640 krad ) AC mode in 3 flux rate 3.4, 11.5, 29.2 E9/cm 2 sec Cumulative fluence: 4.3, 12.8, 30 E12/cm 2 200MeV p ( 31, 91, 214 E12/cm 2 1MeV n 200, 600, 1400 krad )

15  8hrs annealing IUCF 200 MeV proton DC mode, 3 flux rate, 4.9, 7.2, 13.2 E9/cm 2 sec 8 hrs annealing Cumulative fluence: 1.7, 5.1, 11.9 E12/cm 2 200 MeV p ( 12, 36, 85 E12/cm 2 1 MeV n 80, 240, 560 krad ) Irradiation study: flux rate, annealing

16 Summary CDF optical links are in stable service daily maintenance are temperature, ECL related Radiation tolerance is sufficient for the Run II program irradiation tests  laser light degradation is less than 10% at 200 krad no damage observed on driver chip wave form

Download ppt "Radiation hardness of the 1550 nm edge emitting laser for the optical links of the CDF silicon tracker S. Hou 15-Jun-2004."

Similar presentations

IEEE10/NSS R. Kass N21-4 1 A. Adair, W. Fernando, K.K. Gan, H.P. Kagan, R.D. Kass, H. Merritt, J. Moore, A. Nagarkar, S. Smith, M. Strang The Ohio State.

IEEE10/NSS R. Kass N A. Adair, W. Fernando, K.K. Gan, H.P. Kagan, R.D. Kass, H. Merritt, J. Moore, A. Nagarkar, S. Smith, M. Strang The Ohio State.
J.Ye / SMU May 18, 2015 GOL + SoS R & D Work at SMU 1.The Test of the GOL chip. 2.First test on the SoS driver chip and the submission of a dedicated test.

J.Ye / SMU May 18, 2015 GOL + SoS R & D Work at SMU 1.The Test of the GOL chip. 2.First test on the SoS driver chip and the submission of a dedicated test.
Richard Kass IEEE NSS 11/14/2002 1 Richard Kass Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector K.E. Arms, K.K. Gan, M.

Richard Kass IEEE NSS 11/14/ Richard Kass Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector K.E. Arms, K.K. Gan, M.
Detector lecturesT. Weidberg1 Opto-electronics Why use opto-electronics –General advantages –HEP experiments Elements of system –Emitters –Fibres –Receivers.

Detector lecturesT. Weidberg1 Opto-electronics Why use opto-electronics –General advantages –HEP experiments Elements of system –Emitters –Fibres –Receivers.
LHC SPS PS. 46 m 22 m A Toroidal LHC ApparatuS - ATLAS As large as the CERN main bulding.

LHC SPS PS. 46 m 22 m A Toroidal LHC ApparatuS - ATLAS As large as the CERN main bulding.
VERTEX 2002 Experience with Parallel Optical Link for the CDF Silicon Detector S. Hou for the DOIM group Academia Sinica, Taiwan.

VERTEX 2002 Experience with Parallel Optical Link for the CDF Silicon Detector S. Hou for the DOIM group Academia Sinica, Taiwan.
MDT-ASD PRR C. Posch30-Aug-01 1 Radiation Hardness Assurance   Total Ionizing Dose (TID) Change of device (transistor) properties, permanent   Single.

MDT-ASD PRR C. Posch30-Aug-01 1 Radiation Hardness Assurance   Total Ionizing Dose (TID) Change of device (transistor) properties, permanent   Single.
05/11/06Sasha Pronko, Silicon Workshop II, UCSB1 PORTCARDs & DOIMs Sasha Pronko Fermilab.

05/11/06Sasha Pronko, Silicon Workshop II, UCSB1 PORTCARDs & DOIMs Sasha Pronko Fermilab.
Sensors for CDF RunIIb silicon upgrade LayerR min (cm)1 MeV eq-n cm -2 02.113.6 *10 13 13.55.7*10 13 25.92.3*10 13 39.11.1*10 13 411.90.7*10 13 514.70.5*10.

Sensors for CDF RunIIb silicon upgrade LayerR min (cm)1 MeV eq-n cm * * * * * *10.
LECC03, 9/30/2003 Richard Kass/OSU 1 Richard Kass Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector K.E. Arms, K.K. Gan, M.

LECC03, 9/30/2003 Richard Kass/OSU 1 Richard Kass Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector K.E. Arms, K.K. Gan, M.
IEEE06/San Diego R. Kass N18-5 1 Bandwidth of Micro Twisted-Pair Cables and Spliced SIMM/GRIN Fibers and Radiation Hardness of PIN/VCSEL Arrays W. Fernando,

IEEE06/San Diego R. Kass N Bandwidth of Micro Twisted-Pair Cables and Spliced SIMM/GRIN Fibers and Radiation Hardness of PIN/VCSEL Arrays W. Fernando,
DC-DC Buck Converter in Inner Detector Environment

DC-DC Buck Converter in Inner Detector Environment
A Serializer ASIC for High Speed Data Transmission in Cryogenic and HiRel Environment Tiankuan Liu On behalf of the ATLAS Liquid Argon Calorimeter Group.

A Serializer ASIC for High Speed Data Transmission in Cryogenic and HiRel Environment Tiankuan Liu On behalf of the ATLAS Liquid Argon Calorimeter Group.
Bond with current pulses Bond without current pulses A closer look with 40500 frames/second video equipment Single frames have been digitized and a quantitative.

Bond with current pulses Bond without current pulses A closer look with frames/second video equipment Single frames have been digitized and a quantitative.
SVX4 chip 4 SVX4 chips hybrid 4 chips hybridSilicon sensors Front side Back side Hybrid data with calibration charge injection for some channels IEEE Nuclear.

SVX4 chip 4 SVX4 chips hybrid 4 chips hybridSilicon sensors Front side Back side Hybrid data with calibration charge injection for some channels IEEE Nuclear.
DPF 2013 R. Kass 1 P. Buchholz, M. Ziolkowski Universität Siegen OUTLINE Lessons learned… IBL/nSQP opto-board overview assembly experience radiation hardness.

DPF 2013 R. Kass 1 P. Buchholz, M. Ziolkowski Universität Siegen OUTLINE Lessons learned… IBL/nSQP opto-board overview assembly experience radiation hardness.
R. KassIEEE05/Puerto Rico N37-3 1 Radiation-Hard Optical Link for the ATLAS Pixel Detector Richard Kass The Ohio State University W. Fernando, K.K. Gan,

R. KassIEEE05/Puerto Rico N Radiation-Hard Optical Link for the ATLAS Pixel Detector Richard Kass The Ohio State University W. Fernando, K.K. Gan,
R. KassIEEE04/Rome 1 Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector Richard Kass The Ohio State University K.E. Arms, K.K.

R. KassIEEE04/Rome 1 Radiation-Hard ASICs for Optical Data Transmission in the ATLAS Pixel Detector Richard Kass The Ohio State University K.E. Arms, K.K.
Status of the PiN diodes irradiation tests B. Abi( OSU), R. Boyd (OU), P. Skubic (OU), F. Rizatdinova (OSU), K.K. Gan (Ohio State U.)

Status of the PiN diodes irradiation tests B. Abi( OSU), R. Boyd (OU), P. Skubic (OU), F. Rizatdinova (OSU), K.K. Gan (Ohio State U.)
DOIM Parallel Optical Link s: TX/RX S. Hou, R.S. Lu 19-Dec-2003, Lake Geneva.

DOIM Parallel Optical Link s: TX/RX S. Hou, R.S. Lu 19-Dec-2003, Lake Geneva.

Similar presentations

Ads by Google