emf 1 sol

Tutorial 1 Solution Que. 1.

Type of Transmission Line:

a) Co axial wire. b) Optical Fiber. c) Micro strip line. d) Twisted wire line. e) Parallel two wire transmission line. f) HDMI Cable.

Que. 2 & 3.

Refer to 16-01-2013 class notes.

Que. 4 .

a) Peak to peak value of f(t)=2A.

b) RMS value of f(t)=A.

c) Amplitude of |f(t|)=A.

d) Total phase of f(t)=t+.

e) Initial phase of f(t)=.

f) Unit of =radians/sec.

Que. 5 & 6.

a) Unit of =radian/meter.

b) Difference between : In (que.4) is angular frequency and in (que.5) is phase constant.

Que 7.

Plot for real part of f(x)=Cos(2x). Assuming |A|=1

0 0.5 1 1.5 2

-1

-0.8

-0.6

-0.4

-0.2

0

0.2

0.4

0.6

0.8

1

X

Cos

(2*p

i*x)

Real part of f(x)

Que.8.

a) The propagation constant = 1+j. b) Unit for =meter-1. c) Elementary analysis : ((ohm/meter)*(mho/meter) ) = meter-1. d) The distance over which the input voltage decreases to 5V =0.693 meter. e) Decrease in voltage in dB=6.98dB. f) Characteristics impedance Z=1 ohm/meter.

Que.9:

The input voltage Y volt and the power loss is 3 dB. Since P=V2/R ,So the output voltage will be Y/(2) .

Que. 10:

Que. 11:

a) The name of the cable: Co-axial. b) Refer the specification sheet for Co-axial cable.

Que .12:

a) For HDMI cable the maximum distance=300 meter. b) We will go for bus kind of topology for the other passengers. c) The manufacturer did that may be because of safety purposes and tolerance limit for the cable.

We cannot use the longer cable for aircraft because of interference due to many satellites present in the space, while at home interference is lesser as compared to the space.

HUBER+SUHNER DATA SHEET Coaxial Cable: MULTIFLEX_86 Rev.: H

Document: DOC-0000195736 R.00 Issued: 07.01.05 Uncontrolled Copy Page 1/2

Description The flexible microwave cable

Technical Data Construction Material Detail Diameter Centre conductor Copper, Silver plated Wire 0.47 mm Dielectric PTFE 1.48 mm Outer conductor Copper, Silver plated wrapped Foil, 100 % 1.71 mm Outer conductor Copper, Silver plated Braid, 99 % 2.11 mm Jacket FEP RAL 5015 - bl 2.65 mm +/- 0.1 Print HUBER+SUHNER MULTIFLEX 86 (PA no.) Electrical Data Impedance 50 +/- 2 Max. operating frequency 40 GHz Capacitance 95 pF/m Velocity of signal propagation 70.6 % Signal delay 4.72 ns/m Insulation resistance 1 x 108 Mm Min. screening effectiveness > 90 dB (up to 18 GHz) Max. operating voltage 1.5 kVrms (at sea level) Test voltage 3.5 kVrms (50 Hz/1 min) Mechanical Data Weight 2.1 kg/100 m Min. bending radius static 6 mm dynamic 20 mm Environmental Data Temperature range -65 C... + 165 C Installation temperature -20 C... + 60 C Flammability IEC 60332-1, UL 1581 - 1080 (VW-1) 2002/95/EC (RoHS) compliant Ordering Information Order as MULTIFLEX_86 Additional Information Remarks (For details refer to the HUBER+SUHNER MICROWAVE CABLES AND ASSEMBLIES GENERAL CATALOGUE or contact your nearest HUBER+SUHNER partner) Suitable Connectors Cable group crimped (Y11) clamped soldered

HUBER+SUHNER DATA SHEET Coaxial Cable: MULTIFLEX_86 Rev.: H

Document: DOC-0000195736 R.00 Issued: 07.01.05 Uncontrolled Copy Page 2/2

Matrix Attenuation [ formula: (a*f^0.5 + b*f) ] and Power CW [ formula: (p*/ f^0.5) ] Coefficients: a= 0.71702 b= 0.02892 fmax.= 40 pat

1GHz = 140

Frequency Nom. attenuation Nom. attenuation Max. CW power (GHz) (dB / m) (dB / ft) (watt) sea level

25 C ambient temperature

sea level 25 C ambient temperature

sea level 40 C ambient temperature

2.0 1.07 0.326 99 4.0 1.55 0.472 70 6.0 1.93 0.588 57 8.0 2.26 0.689 49 10.0 2.56 0.780 44 12.0 2.83 0.863 40 14.0 3.09 0.942 37 16.0 3.33 1.015 35 18.0 3.56 1.085 33 20.0 3.79 1.155 31 22.0 4.00 1.219 30 24.0 4.21 1.283 29 26.0 4.41 1.344 27 28.0 4.60 1.402 26 30.0 4.79 1.460 26 32.0 4.98 1.518 25 34.0 5.16 1.573 24 36.0 5.34 1.628 23 38.0 5.52 1.682 23 40.0 5.69 1.734 22

HUBER+SUHNER is certified according to ISO 9001 and ISO 14001

WAIVER! It is exclusively in written agreements that we provide our customers with warrants and representations as to the technical specifications and/or the fitness for any particular purpose. The facts and figures contained herein are carefully compiled to the best of our knowledge, but they are intended for general informational purposes only.

HUBER+SUHNER AG RF Industrial 9100 Herisau, Switzerland Phone +41 (0)71 353 41 11 Fax +41 (0)71 353 45 90 www.hubersuhner.com

HUBER+SUHNER Excellence in Connectivity Solutions

M1-1P0H (Ver. 1.0)

Copyright 2005, All rights reserved, Opticis Co., Ltd. Nov. 02, 2005

www.opticis.com

Contents Description Features Absolute Maximum Ratings Recommended Operating Conditions Electrical Power Supply Characteristics Receiver Electrical Interface Specifications of fiber-optic cables Drawing of transmitter and receiver modules DVI Pin Description Reliability Test of Modules Terminology

DATA SHEET HDMI - HDCP Extension Cable

M1-1P0H

Headquarter Opticis Co., Ltd. # 501, ByusanTechnopia, 434-6 Sangdaewon-Dong, Chungwon-Ku, Sungnam City, Kyungki-Do, 463-120 South Korea Tel: +82 (31) 737-8033~9 Fax: +82 (31) 707-8079 www.opticis.com

North American Office Opticis North America Inc. 330 Richmond Street, Suite 100, Chatham, Ontario N7M 1P7 Canada Tel: +1 (519) 355-0819 Fax: +1 (519) 355-0502

M1-1P0H (Ver. 1.0)


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Optical HDMI - HDCP Extension Cable

* Point-to-point optical fibre cable *

Description The M1-1P0H HDMI extension cable is a new member of the Opticis family of products that stretches

your High-Definition Multimedia Interface connectivity. The M1-1P0H is a hybrid cable solution using

multi-mode glass fibers for the Red, Green, Blue and Clock high-speed digital graphic signals and

copper wires for the low frequency HDCP control signals, wrapped in a PVC jacket.

The reality of gigabit high-speed digital graphic interconnections mandates products that maintain

front-of-screen video quality. Optical technology extends the ability to transmit hi-definition multimedia

data beyond the physical limits of copper wires by, i) providing pure signal integrity over long distances

for the optimum visual experience, ii) no EMI/RFI transmission or reception, iii) light weight, rugged

cabling and connectors, iv) very cost effective per foot/metre, v) low power consumption, and vi) plug

and go installation ease no software requirements.

The product consists of a transmitter and a receiver, which are connected by bundled optical fibre and

copper cables. There are male HDMI connectors at each end. The high-speed graphic data

transmission is accomplished by using a VCSEL array inside the transmitter connector, and a Pin-PD

array inside the receiver connector.

The shipping group is as follows;

1) One HDMI cable: M1-1P0Hx-yyy, where x = I, E, and y = length in metres.

x = I : Uses host +5V source from the HDMI connector

E: Uses an external +5V power supply

2) Factory will stock standard lengths of 10m, 20m, 30m, 50m, 70m and 100m.

3) Users Manual

M1-1P0H (Ver. 1.0)


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Feature Checklist Extend HDMI signals up to 100m (330ft) with no signal degradation. Supports up to 1080p resolution. Complies with HDMI standard supporting HDCP parameters. Complies with DVI standard (165Mpixels/sec maximum) and supports DDC2B mode. Uses the host +5V source from the HDMI connector pin number 18 to drive the Tx and Rx

modules, assuming a minimum of 500mA is available from the host.

Optional external AC/DC power version of the cable is available upon request, complete with a universal power adaptor with North American pins.

Data security inherent with fibre & no RFI/EMI emissions. No software required; just plug and go. User Manual is available in non-supplier specific format for white box sales.

Applications

Home Theatre applications. Digital TFT-LCD FPDs, PDPs and projectors for medical imaging, air traffic control, factory

automation, conference rooms, auditorium A/V systems, etc.

Kiosks with digital FPDs showing full motion graphic displays from remote systems PDP displays for information display in public sites. LED signboards in streets and stadiums.

Options M1-1P0HE optionally available upon special order from the factory with an external +5V power

supply where the HDTV source is unable to provide a minimum of +5V, 500mA on pin 18.

Custom lengths up to 100m are also available from the factory.

M1-1P0H (Ver. 1.0)


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Absolute Maximum Ratings

Parameter Symbol Minimum Maximum Units Storage Temperature Tstg - 30 + 70 C Supply Voltage VCC - 0.3 + 6.0 V Transmitter Differential Input Voltage Vd - 1 V Relative Humidity RH 0 85 % Lead Soldering Temperature & Time - - 260C, 10 sec

Recommended Operating Conditions

Parameter Symbol Minimum Typical Maximum Units Ambient Operating Temperature TA 0 + 50 C Data Output Load RLD 50 Power Supply Rejection (Note1) PSR 50 mVp-p Supply Voltage VCC + 4.5 + 5.0 + 5.5 V Graphic Supply Voltage (Note2) GVCC + 3.0 + 3.3 + 3.6 V

Note1. Tested with a 50mVp-p sinusoidal signal in the frequency range from 500 Hz to 500 MHz on the VCC supply with the recommended power supply filter in place. Typically less than a 0.25 dB change in sensitivity is experienced. Note2. Graphic Supply Voltage is only for the Graphic Signal Interface which is generated by regulator in the Transmitter and Receiver Electrical Power Supply Characteristics

1. For M1-1P0HI, where +5Volt PC power is derived from pin 18 of the HDMI connector: The power supply fully specified by the DDWG DVI spec has to have a capability more than 500mA.

2. For M1-1P0HE with the external power adaptor, the characteristics are as follows;

Parameter Symbol Minimum Typical Maximum Units Supply Voltage VCC 4.5 5 5.5 V

TX ITCC - 170 200 mA Supply Current RX IRCC - 130 150 mA TX PTX 0.85 1.1 W Power

Dissipation RX PRX - 0.65 0.825 W

M1-1P0H (Ver. 1.0)


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Specifications of Fibre-Optic Cables

Parameter Value Core Diameter 62.5um (MMGOF) Buffer Diameter 0.25mm (MMGOF)

Outside Diameter 7.2mm Proof Test Level 0.53GPa

Drawing of transmitter and receiver modules Dimension [mm]

M1-1P0H (Ver. 1.0)


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HDMI Pin Description

Pin Symbol Functional Description 1 CH2+ TMDS Data Signal Channel 2 Positive 2 GND TMDS Data Signal Channel 2 Shield 3 Ch2- TMDS Data Signal Channel 2 Negative 4 CH1+ TMDS Data Signal Channel 1 Positive 5 GND TMDS Data Signal Channel 1 Shield 6 CH1- TMDS Data Signal Channel 1 Negative 7 CH0+ TMDS Data Signal Channel 0 Positive 8 GND TMDS Data Signal Channel 0 Shield 9 CH0- TMDS Data Signal Channel 0 Negative 10 CLK+ TMDS Clock Channel Positive 11 GND TMDS Clock Signal Shield 12 CLK- TMDS Clock Channel Negative 13 CEC 14 Reserved Not used 15 SCL 16 SDA 17 GND DDC/CEC shield

5 V Input for Transmitter from Host 18 5V 5 V Output for Monitor from Receiver

19 Hot plug Detect Signal is driven by monitor to enable the system to identify the presence of a monitor

M1-1P0H (Ver. 1.0)


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Reliability Test

Opticis utilizes three types of test criteria for a reduction of variability and a continuous improvement of

the process by its FEMA (Failure Mode and Effective Analysis) program.

1) Mechanical test (vibration, shock)

2) Temperature & humidity tests

3) EMC test (FCC class A and CE Verification)

Mechanical and Temperature & Humidity Test Data

Heading Test Conditions Duration SampleSize Failure Remarks

Operating

Test

Operating at each

Temperature

(See Note)

* - 0 ~ 50 C (Interval: 10 C)

30 Min

(Each

Temperature)

n =4 0 Note: Visual Test onthe Display

Low Temperature * TS = -30 C 96 HR n=2 0 1. TS: Storage Temperature

High Temperature * TS = 70 C 96 HR n=2 0 2. RH: Relative Humidity Storage Test

High Humidity

High Temperature

* TS: 85 C * RH: 85%

96 HR n=2 0

Mechanical

Shock

* Pulse: 11 ms

* Peak level: 30 g

* Shock pulse: 3 times/Axis

- n=2 0

Mechanical

Test Mechanical

Vibration

* Peak acceleration: 20 g

* Frequency: 20~2000 * Sweep time: 30 Minutes

* 4 Times/Axis

- n=2 0

M1-1P0H (Ver. 1.0)


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EMC Test Data

1) EMI: Meet FCC class A (ICES-003) and CE class A

STANDARDS CONDITIONS EN 55 022 (CISPR22) FCC; PART 15 SUBPART B

CE (Conducted Emission) & RE (Radiated Emission) Meet Class A

EN 61000-3-2 (IEC 61000-3-2) Harmonics Meet Class A EN 61000-3-3 (IEC 61000-3-3) Flickers Meet Class A

2) EMS: Meet CE standards (EN 55024) and CISPR24 equivalents

STANDARDS CONDITIONS

EN 61 000-4-2:1995 Electrostatic Discharge Immunity (Air: 8kv, Contact: 4kv) Meet Criterion B

EN 61 000-4-3:1996 Radiated RF E-Field (80~1000 MHz) 3V/m (AM 80%, 1kHz) Meet Criterion A

EN 61 000-4-4:1995 Fast Transients (5kHz, 60Seconds) Meet Criterion B EN 61 000-4-5:1995 Surge Transients Meet Criterion B

EN 61 000-4-6:1996 Conducted Susceptibility (CS) Radiated Susceptibility (RS) Meet Criterion A

EN 61 000-4-11:1994 Voltage Dips, Interruption & Variation Meet Criterion C

Terminology DDC Digital Display Channel. Latest specification is DDC2B. DVI-D Digital Visual Interface. Digital connection only no analog. EDID Extended Display Identification Data. EDID parameters are sent over the DDC link. EMI Electro Magnetic Interference. EMS Electro Magnetic Susceptibility. HDCP High Definition Content Protection. These parameters are part of the 2002 High

Definition Multimedia Interface (HDMI) specification for Consumer Electronics. PDP Plasma Display Panel. Large HDTV panels up to 63 use this display technology. RFI Radio Frequency Interference. TFT-LCD Thin Film Transistor Liquid Crystal Display the technology of most computer display

panels with VESA resolutions up to 1600x1200 pixels. TMDS Transmission Minimized Differential Signalling is the Silicon Image Inc. protocol for

the digital signals. VCSEL Vertical Cavity Surface Emitting Laser transmitter diode. The receiver diode is the

PIN-Photo Diode. These components are designed and manufactured by Opticis. VESA Video Electronics Standards Association.

emf 1 sol

Documents

f hdmi cable

longer cable

b unit

coaxial cable

c amplitude of ft

f unit

b difference

b rms value of ft