Fm Station Proposal

Introduction FM radio broadcast is one of the main types of radio broadcasting. FM usually denotes frequency modulation. This frequency modulation usually takes place on VHF airwaves in a frequency range of 88 to 108 around the world except Japan and Russia. This following article shares precise information on FM radio broadcast. So, find out everything about FM radio broadcast whether its advantages or disadvantages right here. Sources have revealed that FM radio broadcasting is very popular especially in developed areas including Europe and United States because higher sound fidelity as well as stereo broadcasting certainly became quite familiar in this format. During 1930s, Edwin H Armstrong invented FM radio. He invented it to overcome the interference problem associated with AM radio broadcasting to which is relatively immune. Going further with the details on FM radio broadcast, we come up with the point that for accommodating an audio signal in FM radio, it does not require a bandwidth of 200 kHz. What is all required is 20 kHz to 30 kHz for a narrowband FM radio broadcast or FM signal. The 200 kHz bandwidth enabled space for ±75 kHz signal deviation from the appointed frequency. Moreover, guard bands for minimizing or eliminating adjacent channel interference. However, the greater or higher bandwidth enables to broadcast for a 15 kHz bandwidth audio signal. Meanwhile the extra unused capacity is generally used for transmitting utility acts like background music for public areas, as well as GPS auxiliary signals.

The problem of AM radio interference during nighttime was generally addressed in different way. The time when FM was first set up, the available frequencies were far greater or larger in comparison to those used for AM radio broadcast roughly around 100. Using these frequencies meant that even at far larger power, the range of a given FM radio broadcast or FM signal was much shorter, thus its market was more local than for AM radio. The reception range at night is the same as in the daytime. However, all new radios included both AM and FM tuners, FM became the dominant medium, especially in cities. Because of its greater range, AM remained more common in rural environments.

Design Background The

to

be

established

FM

station,

Rockstar

Radio

94.7

MHz,

is

a music/news/talk radio station serving mainly in Bo. Obrero, Davao City with a power of 20 000 watts. The station's studio, as well as the transmitter, will be assembled in the fifth floor of the College of Engineering building in the University of Southeastern Philippines. DXJC will operate 20 hours a day, from 4 o’clock in the morning until midnight, 7 days a week.

1. name 2. operating frequency 3. operating power 4. operating time 5. classes of fm broadcast stations-class a

Design Concept a.) Frequency For the project, a frequency of 94.7 MHz is used. A channel at the middle part of Very High Frequency band is selected because it is commercially available and it is more convenient for listener’s to tune their radios. b.) Type of Module Since the coverage area is relatively small, Rockstar Radio will broadcast in stereo where typically there is only one microphone, one loudspeaker, or (in the case of headphones and multiple loudspeakers) channels are fed from a common signal path. In the case of multiple microphones the paths are mixed into a single signal path at some stage. Aside from mono being less expensive for recording and reproduction, recording is easy and only requires basic equipment. c.) Modulating Index m=Δf/fm where: Δf=peak carrier frequency fm=modulating frequency for commercial FM, Δf=75kHz fm=15kHz m=75/15 m=5

d.) Bandwidth B=2(m+1)*fm B=2(5+1)*15 kHz B=180 kHz Guard bands: 10 kHz at both ends, therefore B=180 + 2(10) B=200 kHz e.) Power Amplifier In this design, we used a Class D power amplifier. The voltage mode Class D amplifier is defined as a switching circuit that results in the generation of a halfsinusoidal current waveform and a square voltage waveform. A series-tuned output filter passes only the fundamental frequency component to the load. Class D amplifiers suffers from losses due to a number of reasons: non-zero saturating resistance, finite switching speed and output capacitance of the devices. Class D power amplifiers are mainly used in the HF and VHF bands, sometimes output levels up to 1 kW. They are not preferred at the frequencies in the GHZ range, although this might change in the future, Class D operation with efficiency as high as 80% at 1GHZ has been reported. A unique aspect of Class D is that efficiency is not degraded by the presence of reactance in the load. f.) Antenna Polarization Vertical polarization provides the best possible coverage for frequency modulated radio signals since most of the receivers utilize vertical antennas and

the

antenna

design

gives

maximum

radiation

efficiency.

The

implementation of vertical polarization is implemented by using a half wave dipole antenna in an array system mounted on the vertical length of the tower with a 1 wavelength spacing between each element for maximum radiation efficiency. g.) Station Location

The station, as well as the transmitter, will be located at the fifth floor of the College of Engineering building in the University of Southeastern Philippines. The area of coverage will be mainly Bo. Obrero, Davao City with a land area of approximately 800,000 square meters. Below are the topographical map of Davao City and the elevation profile of Obrero, Davao City.

System of Designing a.) Block Diagram

i.

The exciter is the most important part of an FM Transmitter because the FM signal is generated at this stage. It can operate as a low power standalone transmitter. The exciter section contains carrier oscillator,

ii.

buffer amplifier, and reactance modulator. After successful FM signal generation, the signal is split before being passed into the amplifier bank. This helps us ensure a low noise

iii.

amplification and improved signal to noise ratio. The various outputs from the splitter stage were directly coupled into an amplifier. A 1 kW Class C amplifier was used for this purpose. This provides the effective power boost needed for the transmission of the signal over a range.

iv.

The combiner unit is a reciprocal of the splitter unit. It is made up to three combining stages. The first stage employs four sets of 6:1 combiners to yield four 6 kW signals. The second stage uses two sets

of 2:1 combiners to two signals of 12 kW each while the third stage combines the two 12 kW signals to yield a 24 kW output. b.) Antenna The antenna used in this design is an omnidirectional transmitting antenna. The antenna has a gain of 2.15 dB and an impedance of 50 ohms. Its grounding system is composed of metal clamps. The physical height of the antenna is 143 cm. Shown below are its vertical and horizontal patterns.

Frequency of transmission, f = 94.7 MHz λ=c/f =3x108/94.7x106 =3.168m Physical antenna length, l= λ/4 =3.168/4 =0.7191m Therefore, length = 71.91 cm Bill of Materials

Ite m#

QT Y

Unit

1

125

Feet

SAT-PAK COM RG 213 Coaxial Cable

2

2

Pcs

LMR-400-75 type N male plugs and grounding

3

1

Pcs

4

2

Pcs

Description

Price

Amount

15,266.08

15,266.08

6,600.00

6,600.00

Behringer Ultramizer Audio Processor

4,400.00

4,400.00

SHURE SM57

4,356.00

4,356.00

2,350.00

2,350.00

599.00

599.00

4,500.00

4,500.00

5

1

Pcs

Altec Lansing VS2621 Speakers

6

2

Pcs

Techno Tamashi TH-1049

7

1

Pcs

ALTO Equalizer 31 band mono

8

1

Pcs

MICKLE MT7-USB Mixing Console

4,999.00

4,999.00 20, 000.00

9

1

Set

BNC Connectors and Peripherals

20, 000.00

10

1

Pcs

Broadcom FM Broadcast Antenna 87-108MHz

11,450.00

11,450.00

11

2

Pcs

800 ft. 10-Gauge Bare Copper Grounding Wire

8,404.00

16,808.00

12

1

Pcs

Airman Welder 350 amp 9.9 Generator

250,000.00

250,000.00

53,679.00

53,679.00

254,952.14

254,952.14

13

1

Pcs

HP Envy Recline 27xt

14

1

Pcs

Axel Oxygen 5 Broadcast Mising Console

15

1 12

Pcs mont hs

Armstrong FM20000T2 20 kW FM Transmitter Building Rental, Power Consumption

2692582. 07 50,000.00

FM Station Studio Construction 6

Employee Salary Labor Cost

TOTAL INVESTMENT

600,000.00

3,922,541.2 9

TOTAL AMOUNT FM Tower Construction and Materials

2692582.07

500000

500000

150,000.00

150,000.00

12,500.00

75 000.00

588,381.19

10,160,922. 48

Republic of the Philippines University of Southeastern Philippines COLLEGE OF ENGINEERING Obrero Campus, Davao City

BROADCAST ENGINEERING AND APPLIED ACOUSTICS

Rockstar Radio 94.7 MHz

Submitted to: Engr. Joey Dela Cruz

Submitted By: Cedric D. Conol Joannacel A. Paraiso