Dimensioning A Slot Pattern

Same double-slit assembly (0.7 mm between slits); in top image, one slit is closed. In the single-slit image, a diffraction pattern (the faint spots on either side of the main band) forms due to the nonzero width of the slit. This diffraction pattern is also seen in the double-slit image, but with many smaller interference fringes. Technical Drawing Dimensioning Types. Dimensioning rules is very important for drawing standards. Proper dimensioning will help to manufacturers, engineers etc. To get better understanding of the designed parts. Selected front view should describe the part the best. All dimensions must be in decimals.

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Slot Dimensioning The two methods shown on the left are the acceptable methods for dimensioning slotted holes. Dimensioning Radial Patterns Angles and radius values are used to locate the centers of radial patterned features, such as the holes on this plate. Within the Pattern command we are able to increment a feature through the spacing or size, we can control this using a dimension and even override individual instances. In this example we have a slot located on the origin and created a linear pattern going vertically above with 8 instances.

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A folded dipole is an antenna, with two conductors connected on both sides, and folded to form a cylindrical closed shape, to which feed is given at the center. The length of the dipole is half of the wavelength. Hence, it is called as half wave folded dipole antenna.

Frequency range

Dimensioning A Slot Pattern Tool

The range of frequency in which half wave folded dipole operates is around 3KHz to 300GHz. This is mostly used in television receivers.

Dimensioning A Slot Pattern Set

Dimensioning A Slot Pattern Blocks

Construction & Working of Half-wave Folded Dipole

This antenna is commonly used with the array type antennas to increase the feed resistance. The most commonly used one is with Yagi-Uda antenna. The following figure shows a half-wave folded dipole antenna.

Dimensioning Slot Pattern

This antenna uses an extra conducting element (a wire or a rod) when compared with previous dipole antenna. This is continued by placing few conducting elements in parallel, with insulation in-between, in array type of antennas.

The following figure explains the working of a half-wave folded dipole antenna, when it is provided with excitation.

If the diameter of the main conductor and the folded dipole are same, then there will be four folded (two times of squared one) increase in the feed impedance of the antenna. This increase in feed impedance is the main reason for the popular usage of this folded dipole antenna. Due of the twin-lead, the impedance will be around 300Ω.

Radiation Pattern

The radiation pattern of half-wave folded dipoles is the same as that of the half-wave dipole antennas. The following figure shows the radiation pattern of half-wave folded dipole antenna, which is Omni-directional pattern.

Half-wave folded dipole antennas are used where optimum power transfer is needed and where large impedances are needed.

This folded dipole is the main element in Yagi-Uda antenna. The following figure shows a Yagi-Uda antenna, which we will study later. The main element used here is this folded dipole, to which the antenna feed is given. This antenna has been used extensively for television reception over the last few decades.

Advantages

The following are the advantages of half-wave folded dipole antenna −

• Reception of balanced signals.

• Receives a particular signal from a band of frequencies without losing the quality.

• A folded dipole maximizes the signal strength.

Disadvantages

The following are the disadvantages of half-wave folded dipole antenna −

Dimensioning A Slot Pattern Block

• Displacement and adjustment of antenna is a hassle.

• Outdoor management can be difficult when antenna size increases.

Applications

The following are the applications of half-wave folded dipole antenna −

• Mainly used as a feeder element in Yagi antenna, Parabolic antenna, turnstile antenna, log periodic antenna, phased and reflector arrays, etc.

• Generally used in radio receivers.

• Most commonly used in TV receiver antennas.