Photodetectors Lecturer: Mauro Mosca (www.dieet.unipa.it/tfl) University of Palermo –DEIM A.A. 2014-15.

Slides:

Advertisements

Similar presentations

Chapter 9. PN-junction diodes: Applications

Advertisements

Chem. 133 – 2/12 Lecture. Announcements Lab Work –Supposed to Cover Set 2 Labs – but I probably won’t cover all and then will give an extra day for period.

LECTURE- 5 CONTENTS  PHOTOCONDUCTING MATERIALS  CONSTRUCTION OF PHOTOCONDUCTING MATERIALS  APPLICATIONS OF PHOTOCONDUCTING MATERIALS.

© S.N. Sabki Revision CHAPTER 9 CHAPTER 9 Part II.

Light detectors Classification and parameters of detectors Photodiode

Optoelectronic Devices (brief introduction)

Integrated Circuit Devices

Semiconductor Light Detectors ISAT 300 Foundations of Instrumentation and Measurement D. J. Lawrence Spring 1999.

Detection Methods Coherent ↔ Incoherent Photon Detection ↔ Bolometric Photon Counting ↔ Integrating.

EE 230: Optical Fiber Communication Lecture 11 From the movie Warriors of the Net Detectors.

1 Chapter 5 Sensors and Detectors A detector is typically the first stage of a communication system. Noise in this stage may have significant effects on.

Metal Semiconductor Field Effect Transistors

Fiber-Optic Communications

Photomultiplier Tube m = k 8–19 dynodes (9-10 is most common).

1 Detectors RIT Course Number Lecture Single Element Detectors.

Fiber Optic Receiver A fiber optic receiver is an electro-optic device that accepts optical signals from an optical fiber and converts them into electrical.

OPTICAL DETECTORS IN FIBER OPTIC RECEIVERS.

Chapter 6 Photodetectors.

4/11/2006BAE Application of photodiodes A brief overview.

V. Semiconductor Photodetectors (PD)

1 Light Collection  Once light is produced in a scintillator it must collected, transported, and coupled to some device that can convert it into an electrical.

Photon detection Visible or near-visible wavelengths

Higher Physics Semiconductor Diodes. Light Emitting Diode 1  An LED is a forward biased diode  When a current flows, electron-hole pairs combine at.

3/26/2003BAE of 10 Application of photodiodes A brief overview.

Chapter 5 Optical Detector.

Venugopala Rao Dept of CSE SSE, Mukka Electronic Circuits 10CS32.

ECE 4339 L. Trombetta ECE 4339: Physical Principles of Solid State Devices Len Trombetta Summer 2007 Chapter 9: Optoelectronic Devices.

References Hans Kuzmany : Solid State Spectroscopy (Springer) Chap 5 S.M. Sze: Physics of semiconductor devices (Wiley) Chap 13 PHOTODETECTORS Detection.

1 Semiconductor Detectors  It may be that when this class is taught 10 years on, we may only study semiconductor detectors  In general, silicon provides.

Chapter 6 Photodetectors.

Avalanche Photodiode Gain or Multiplication M

Introduction Trapped Plasma Avalanche Triggered Transit mode Prager

ENE 311 Lecture 9.

Detectors (UV-Vis) 1. Phototube 2. Photomultiplier Tube (PMT) 3. Si Photodiode 4. Photodiode Array (PDA) 5. Charge Coupled Device (CCD) 6. Charge Injection.

References Hans Kuzmany : Solid State Spectroscopy (Springer) Chap 5 S.M. Sze Physics of semiconductor devices (Wiley) Chap 13 PHOTODETECTORS.

Photo Detectors for Fiber Optic Communication

1 Stephen SchultzFiber Optics Fall 2005 Semiconductor Optical Detectors.

Title Light Detectors. Characteristics  Sensitivity  Accuracy  Spectral Relative Response(R( ))  Absolute Sensitivity(S( ))  Signal-to-noise ratio.

THERMAL SENSORS 指導教授 : 吳坤憲老師報告學生 : 蕭傑穎.

Unit 3 Optoelectronics Devices. 7.1 Optoelectronic Devices: Introduction: Optoelectronics is the field that deals with the study of devices that emit,

Photodetectors What is photodetector (PD)? Photodetector properties

Photodetectors. Principle of the p-n junction Photodiode  Schematic diagram of a reverse biased p-n junction photodiode SiO 2 Electrode  net –eN.

Optical Receivers Theory and Operation

Optoelectronics.

Solid State Detectors - Physics

Lecture 14 OUTLINE pn Junction Diodes (cont’d)

Types of Semiconductor Detectors

CHAPTER 9: PHOTONIC DEVICES

Venugopala Rao Dept of CSE SSE, Mukka Electronic Circuits 10CS32.

Topic Report Photodetector and CCD

Bandgap (eV) Lattice Constant (Å) Wavelength ( ㎛ ) GaN AlN InN 6H-SiC ZnO AlP GaP AlAs.

Application of photodiodes

Optical Emitters and Receivers

Electronics & Communication Engineering

PN-junction diodes: Applications

UConn L ECE 5212 Photodetectors.

Infra Red Thermal Imaging

Thermal detectors for Far-Infrared

Photo Detectors.

Infra Red Thermal Imaging

Photodetectors.

V. Semiconductor Photodetectors (PD)

Optoelectronic Devices

ECE699 – 004 Sensor Device Technology

Radiation Sensors Radiation is emission if either particles or electromagnetic rays from a source. Particles are usually nuclear particles which can be.

Optical Receivers 1. Photo Detectors

Semiconductor Detectors

Recall-Lecture 6 Diode AC equivalent circuit – small signal analysis

Presentation transcript:

Photodetectors Lecturer: Mauro Mosca ( University of Palermo –DEIM A.A

Photodetector Thermal Thermoelectric Thermoelectric Bolometers Bolometers Pyroelectric Pyroelectric Photonic Photonic Photomultipliers Photomultipliers Photoconductors Photoconductors Photovoltaics Photovoltaics

Thermoelectric detectors - Principle of thermocouples large electrical conductivities thermopile minimize Joule heating effects small thermal conductivities minimize heat conduction losses

Bolometers current flowing SMALL Why?... current must not raise temperature too much  Pt ~  Ni = = K -1 Sensing element

Pyroelectric detectors ferromagnetic material molecules with a permanent electrical dipole - lead zirconate - lithium tantalate

Dispositivi emissivi: catodi # emitted electron # absorbed photons = quantum yield lowest value for e  : Caesium (2.1 eV) NaKCsSb (S20)

Negative Electron Affinity (NEA)

Photomultipliers Dynodes (~ 100 V)

Photoconductive detectors

V BB R PC Photoconductive detectors: application circuits se si è interessati solo alle variazioni di intensità radiante segnale d’uscita piccolo! (R L piccola) scarsa sensibilità! (R PC piccola)

Photoconductive detectors : application circuits

The most common method used to extract the signal is to modulate the incident radiation at a specific frequency by placing a mechanical chopper in front of the sensor or by electrically modulating the radiation source ????????????????????????????? either The signal due to radiation is now an AC signal while the dark current is a DC signal. The AC signal can be separated from the DC background signal using an AC amplifier

Photoconductive detectors: gain I0I0 x = =

I0I0 x photoconductive gain G = ratio of the rate of flow of electrons per second to the rate of generation of e - -h + pairs within the device

Photoconductive detectors: gain

Se consideriamo che:

Photoconductive detectors: response rgrg

Fotoresistors (LDR) Large surface Close electrodes

response sensitivity Photoconductive detectors: pros and cons c t tr high low f

Multiple-quantum well (MQW) detectors

p-n junction detector (photodiode) - photovoltaic mode - photoconductive mode i II

Silicon photodiode oppure…

Silicon photodiode: responsivity

Photodiode materials Ge G = 1.88  m In x Ga 1-x As (x = 0.53) G = 1.68  m lattice matched to InP

Response time of photodiodes transit time accross the depletion region junction capacitance effects  is minimized…

Response time of photodiodes carrier diffusion

Noise in photodiodes

Schottky photodiodes fotoeccitazione elettroni metallo  più lunghe

Metal-semiconductor-metal (MSM) photodetector capacità più piccole dispositivi più veloci

Avalanche photodetectors (APD) The guard ring structure is a low doping region where depletion region extends an appreciable distance into it In the vicinity of guard ring the total depletion layer is greater (hence the maximum electric field is lower) than in the central region reduced breakdown no current leakage fron the edge

Phototransistor V CB < 0 IBIB I E =  I B Maggiore sensibilità (mA) ma… Minore velocità (s contro i ns dei fotodiodi)

Charge-Coupled Devices (CCD)

CCD: read-out mechanisms