Everything you need to know before buying a projector

Today, more and more people are interested in how to choose projectors for their home theater. To know which projector to choose, please pay attention to the following information.

This multimedia device is a stand-alone mechanism that provides projection onto a large screen of information coming from various sources - a video camera, computer, DVD player, television tuner, etc.

Modern projectors are used in many areas of our lives: in home theaters, in schools and universities for conducting classes, in offices for conducting business presentations, in museums for creating multimedia installations, in shopping centers and crowded places for broadcasting advertising content, and wherever necessary large image size, where the use of TVs and panels is impractical due to insufficient image size or too high a price.

How are the types of projectors divided by purpose?

The bulk of projectors are devices designed for use in offices, auditoriums, classrooms and other presentation , in which light is usually present. The goal of such projectors is to produce a good image, regardless of artificial lighting. Of course, the lights can be turned off, but the ability of projectors for offices and educational institutions to produce high brightness has become a mandatory requirement. Such projectors are often called “mobile” because they are quite easy to move from place to place. Also for similar purposes, devices are offered, classified into the types “projectors for education” or “projectors for business.”

The second type of projector is home theater , designed to operate with the lights off. In these conditions, projectors do not require high brightness, but accurate color reproduction and high contrast levels are highly visible and highly valued.

The third class is installation, professional projectors with very high brightness and large dimensions and weight. Such projectors are used in large rooms such as conference rooms, assembly and concert halls, as well as for open-air installations. This type of projector is capable of giving you image brightness that is far beyond the capabilities of conventional “office” projectors.

Main types of projectors

Pocket projectors are often used by people, often on the move. Weighing up to 300 grams, the device is ideal for an unplanned presentation. The advantage lies in their mobility; as for functions, they have several limitations. They are easily portable from one place to another and are convenient for people who travel frequently and are mobile, giving presentations in different cities and places.

Pocket projector Aiptek MobileCinema i50D

Ultra portable projectors are used for business presentations and events and are distinguished by their convenience. Mobile, but often it is the small weight parameters that indicate limited functions and options. Therefore, the choice of such a device must be treated carefully. Light weight is not an indicator of high quality, so before choosing a model, it is best to consult with an experienced specialist who knows the issue and will help you choose a high-quality model.

ultraportable projector Aiptek MobileCinema i20

Portable projectors can often be used as portable ones for presentations. They are compact and high-performance in terms of technology, and also have numerous functional features.

Stationary devices are used in one place and can have a variety of interfaces. Such devices are used in permanent installations, have high technical parameters, as well as competent “intelligent” filling. They have a good luminous flux, a large number of interchangeable optics, and so on. The cost of such devices is correspondingly higher, but it is due to high technological features and good performance.

BenQ W5000 stationary projector

Which projectors are the best is up to you to decide; the most important thing is to choose them wisely. It is necessary to select a device based on its basic characteristics and individual characteristics, among which are the scope of application, the number of times you plan to use the device over a certain period of time, as well as other parameters.

What are the main types of projectors?

All the countless models of projectors can be divided into three groups, taking into account the technology by which they are made. Today you have a choice between LCD, DLP and LCoS.

The operating principle of all projectors is essentially the same. In the far corner of the “box” there is a lamp that emits powerful light. The task of this light flux is to “reach” the screen and show us an interesting movie. But this run will definitely have obstacles - along the way, the light must overcome a system of lenses, light filters, mirrors and other elements. Depending on what kind of obstacles stand in the way of the light flow, projector technologies differ.

In LCD projectors, the light from the lamp is first trapped by color filters that divide it into blue, red and green. Then each of the three threads runs to its own liquid crystal matrix and creates an image of the corresponding color on it. But since red people or blue trees do not correspond to the idea of ​​a good movie, there is a prism in the projector device right behind the matrices. It combines three single-color images into one full-color one, and this image, familiar to our eyes, is projected onto the screen. Projectors with LCD technology provide good image brightness and a large number of colors. Such projectors hardly heat up and operate very quietly. But be prepared to calmly react to pixels that stand out and regularly clean the device’s filters. In addition, LCD projectors do not have high contrast ratio.

DLP technology puts an obstacle in the path of the light flow in the form of a mirror microchip. It consists of many tiny mirrors that are constantly turning. When light falls on a reflective surface, a white dot appears on the screen, when on an absorbing surface, our eye distinguishes a black dot. A rotating disk with multi-colored sectors, which is located between the lamp and the mirrors, helps to make the image colorful. The luminous flux, “reaching” the rotating disk, is “painted” in different colors and, in this form, falls on the mirror surface. Thus, frames of green, blue, and red colors are projected sequentially onto the screen. But their change occurs so quickly that our eye perceives the picture as a multi-color image.

DLP is a high-definition home theater projector without annoying pixels. It creates an image with high contrast and emphasizes blacks. This model is light in weight and compact in size, so even a child can lift it. The image from a DLP projector has characteristic features: it can be stratified into individual colors, creating a “rainbow effect”. Don't you like this kind of rainbow? As an option, you can choose a projector for a home theater, in which instead of one mirror chip there will be three at once - this will solve the “rainbow” problem, but the price of the projector will increase.

LCoS technology combines the features of LCD and DLP. In this type of projector, light hits a liquid crystal matrix, but instead of passing through it, it is reflected and forms an image.

Of all three, this technology is the most modern - such projectors reproduce colors flawlessly and create a bright picture with high contrast. With such a projector, you will not be annoyed by individual pixels or the “rainbow effect”, because the device is free of such shortcomings. Currently, there are two main manufacturers of LCoS projectors - Sony and JVC. Sony calls its LCoS technology SXRD, and JVC calls it D-ILA.

How do projectors work and what types are they? Parsing

We missed something... You may have noticed that projectors have always created a feeling of wonder. Filmstrips in the attic, the first trip to the cinema - real magic...

But over the past 40 years, projectors have gone from being an “emotional” miracle to a “technical” miracle. And at first glance it may seem interesting: is it just a picture with a lamp shining on it, like in a filmstrip? But in reality, everything is much more complicated. Today we will look at how modern projectors work.

Let's find out what digital light processing is and why two million mirrors are placed inside the projector?

Let's test a top modern projector and reveal a terrible secret about “real” 4K resolution.

And, I apologize in advance if after this video you want to buy a projector.

Problem with projectors

Why didn’t most of us pay any attention to projectors for a long time?

The fact is that over the past twenty years, all digital projectors could roughly be divided into only two categories, which are called:

1. “Hmm, sorry, it seems there are extra zeros in the price tag.”
2. “Um, I can’t see anything, maybe we can turn it on the TV?”

And this situation was associated with a key problem: the technology for projecting digital images was so complex and imperfect that good quality could only be achieved at a very high price. And that's how we got here.

Film projectors

In the era of film, projectors were very simple: take a bright lamp, shine it on the film, focus everything with optics and you're done! Here's a picture on the wall.

Do you need the image to move? We just spin the reel. But with digital projectors everything turned out to be much more complicated.

1LCD projectors

First, they tried to replace the film with an LCD matrix. This is how LCD projectors appeared. They were arranged one to one like film ones, but instead of film they began to use a color liquid crystal matrix. Exactly the same as in most modern displays.

But it immediately became clear: what works well for small displays is poorly suited for large projections.

Firstly, pixels, or rather subpixels, are visible. The fact is that each pixel in color LCD displays consists of three RGB subpixels, which are located next to each other. And if we don’t see subpixels on a small display, then on a large projection they are clearly visible.

Secondly, it turned out that LCD matrices simply burn out from the bright light of the lamps. Therefore, a choice arose: either reduce the power and, accordingly, the brightness, or constantly change the burnt-out matrices.

3LCD projectors

Then, to solve these problems, in 1989 they began to use three monochrome LCD matrices instead of one color one. And the technology was called 3LCD. And at this point, projectors began to become much more complex. See for yourself how it all worked.

Using a system of dichronic mirrors, the light flux was divided into three channels - RGB. Each of which fell on three LCD matrices. After this, in a special prism, the three channels merged back into a multicolor image.

This scheme turned out to be very successful:

• We got rid of the effect of RGB subpixels.
• And the picture itself turns out bright and rich.

That's why such projectors are still used today.

However, it is not without its drawbacks:

• The price has increased, because three matrices cost more than one matrix.
• The size of projectors has increased.
• All three dies still need to be cooled. This is why projectors make noise and matrices become covered with dust.
• In addition, such a scheme requires adjustment, and it is not always possible to perfectly align the image from three matrices.
• Plus, due to the structure of LCD matrices, a “screen door effect” arose, that is, a grid of pixels was visible.
• Well, the main drawback of 3LCD technology is the shallow black color and, as a result, low contrast.

LCoS projectors

So, the screen door effect and low contrast were solved by adding a reflective layer to the LCD matrix. And the new technology was called LCoS. Which stands for “liquid crystals on silicon,” although, for good measure, it should have been called “reflective LCD.” LCoS projectors are also called: D-ILA, HD-ILA and SXRD. It's all the same, just different names.

LCoS—Liquid Crystal on Silicon

J.V.C. D-ILA or HD-ILA - Direct Drive Image Light Amplifier

Sony. SXRD - Silicon X-tal Reflective Display

What is the point of technology?

A reflective layer was added directly behind the liquid crystal layer, so the light hitting the matrix began to be reflected and thereby pass through the liquid crystals twice. This greatly increased the contrast. In this case, the layer with transistors ended up behind the reflective layer, so the screen door effect was greatly reduced. In other words, we finally got the perfect picture: bright, contrasting, without a visible grid of pixels.

But all this was achieved by further complicating the projector circuit.

See for yourself, it was like this:

And it became like this:

The technology turned out to be very expensive and therefore now LCoS technology is used only in very expensive Hi-End projectors. And so we came to a situation in which, if you want quality, you need to pay many thousands of dollars for an LCoS projector, or buy a 3LCD and accept compromises. There is no other option.

DLP projector

And then a fundamentally new technology appeared, which made it possible, on the one hand, to simplify the design of projectors, and on the other, to improve image quality. And the technology is called DLP, i.e. Digital Light Processing, literally “digital light processing”

And this is simply mind-blowing technology. How does this thing work?

Instead of three LCD matrices, a single DMD matrix is ​​used inside the DLP projector, which consists of millions of micromirrors! In general, DMD stands for Digital Micromirror Device, that is, “digital micromirror device.”

Each such mirror consists of an aluminum alloy and can almost instantly deviate into one of two positions that differ from each other by an angle of 20°. But why? You ask. Look!

Each mirror corresponds to one pixel of the created image. If the mirror is in the “one” position, it will reflect the light strictly into the lens and we see a white dot on the screen. If the mirror is in position “2”, it reflects light into the light-absorbing surface and we see a black dot on the screen. This is how a black and white image is formed on the screen.

And if we quickly change the position of the mirror, the pixel on the screen will begin to flicker quickly. But due to the inertia of human vision, we will not see flickering, but will see gradations of gray. Cool! But how do we get color?

To do this, the light flux passes through a special colored disk, which consists of multi-colored segments. There may be three, four or more.

The disk rotates quickly and colors each one in turn. But, again, due to the inertia of vision, we do not see flickering, we just see a color image. It sounds complicated, but in fact, the design of the projector has been greatly simplified:

And it turned out that DLP technology provides a lot of advantages.

Firstly, deep black color and high contrast, because no light reaches the black pixel at all.

Secondly, the screen door effect disappeared. The dimensions of micromirrors themselves are very small, and the gaps between them are even smaller and usually no more than one micrometer. Therefore, the structure of the image on the screen does not have the “grid effect” characteristic of LCD projectors.

Thirdly, the mirrors do not fade and do not require serious cooling. Therefore, as a rule, DLP projectors are less noisy. Moreover, the optical unit in such projectors is isolated, so dust does not get in there.

And finally, such projectors are much more compact and mobile.

In general, it is an almost ideal technology, but also with its shortcomings, the main one being the “rainbow effect”. In dynamic, contrasting scenes, you can notice a rainbow trail at the boundaries of objects. This is precisely due to the rotating colored disk.

But this effect is really noticeable only with old or cheap DLP projectors and is easily treated by increasing the disk rotation speed, or increasing the number of color segments.

The second disadvantage: DLP projectors are less bright than 3LCD projectors. This is logical, since the same color disk stupidly cuts off part of the light. But now, this problem is no longer so relevant, and DLP is almost equal in brightness to 3LCD.

But there are also three-matrix DLPs, which are in no way inferior to LCD and rather compete with LCoS, but this is already the Hi-End segment.

XGIMI Horizon PRO

Therefore, objectively speaking, DLP technology has revolutionized the idea of ​​what a projector can be. And the easiest way to show this is with an example. This is XGIMI Horizon Pro - a top-end 4K DLP projector for the right price.

You’ve hardly heard of the XGIMI company, but in fact, the guys have been making top-end projectors since 2021 and are very famous among connoisseurs of large screens. This is an all-in-one projector with several unique features.

First of all, the setup process is very simple. You just place the projector and it automatically corrects the geometry and focuses. You don't need to do anything at all. If you have a screen, it automatically detects it and adjusts to size. If something interferes in the frame, for example, the picture climbs onto a cabinet, door, switch, he also adjusts the picture.

It is very comfortable. In fact, you can organize watching movies, football, presentations, anywhere without straining at all.

And the second pleasant moment will help you with this. You've already noticed that the projector runs on Android TV 10, a cool fast uncut. By the way, the projector comes with a chic remote control with voice control, so in terms of convenience this projector is like a good Smart TV.

Plus there is excellent sound from Harman/Kardon - two 8 W speakers. Of course, this is not a separate soundbar or 7.1 system, but the sound is really pleasant, spacious, and detailed. There is support for DTS and Dolby Atmos. For me, I don’t need anything else.

But of course, the main advantage of the projector is the image quality. Despite the fact that the projector can be said to be mobile. By the way, it can be used as a Bluetooth speaker! So, despite this, the picture here is like that of a good stationary projector.

• Brightness 2200 ANSI Lumens
• 4K UHD resolution
• Color gamut 110% DCI-P3. Not bad, right?
• HDR10 and HLG support

And now the main thing is that the projection size is from 30 to 300 inches. It's a whole wall!

In other words, XGIMI Horizon PRO is a home theater that you can deploy anywhere at your convenience. You can put it on the bedside table, or hang it from the ceiling, or you can drag it from the living room to the nursery or even to friends’ houses, and play the PlayStation together. By the way, the refresh rate is 60 Hz.

Now an important point, in the line of such projectors there are 2: Horizon and Horizon Pro, and they differ only in one thing: Horizon is a Full HD projector, and Horizon Pro is 4K. But there is a nuance here.

XPR (pixel-shift).

In fact, both projectors use a DMD matrix of the same 0.47-inch diagonal and the same resolution of 1920x1080, that is, physically there are the same number of micromirrors. But how then do we get 4K images in Horizon Pro? Are we being deceived? No, it uses a very interesting pixel shift technology called XPR.

It works as follows. At a frequency of 240 Hz, the image is shifted by half a pixel in 4 directions: right, down, left, up. Again, our eye glues this picture together and instead of 2 million pixels, we see 8.3 million pixels, that is, a full-fledged UHD image.

What is noteworthy is that this is not done programmatically, but using a special optical module that tilts in 4 directions and slightly shifts the image.

Therefore, in fact, Horizon differs from Horizon Pro only in the absence of an additional XPR module.

But there really is a difference between FHD and 4K with pixel shift. Detail increases. But the most important thing, in my opinion, is that the pixel grid completely disappears, the image becomes uniform and more natural.

Moreover, this method of generating 4K is used by all modern consumer DLP projectors, even in very expensive, except perhaps the most premium super-high-end solutions.

conclusions

I hope you, like me, were interested in immersing yourself in the world of modern projectors and learning about these cool technologies.
However, we have not told everything. This is a really interesting technology, and XGIMI Horizon and Horizon Pro as examples of its application are truly gorgeous projectors, take a closer look! Post Views: 3,227

What is affected by the strength of the luminous flux?

Luminous flux or brightness is measured in ANSI lumens. The higher the ANSI lm level, the brighter the projector is considered. The best results, regardless of projector brightness, are obtained in a dark room; however, this is not always possible or necessary. If you are going to use the projector in a room where there will be sunlight and there are no blackout curtains to dim the natural light, then you need to use a bright projector. At home, it is recommended to use the projector in a dark and less bright environment to fully enjoy the image quality.

The more people in the room, the larger the image must be projected so that each person can see the picture. To increase the size of the image, it is usually necessary to position the projector further from the screen, which will affect the brightness of the image since the light will be projected onto a larger area of ​​the screen.

Projecting text, graphics or educational material from a computer will require a brighter projector due to the need to work in a well-lit room because educational or business events are not held in the dark. For home use (video, TV) you do not need such a bright projector, since they are visually less demanding and are usually used in dark rooms. If you choose a home theater projector that is too bright, this can lead to reduced image contrast and loss of quality.

Why is the contrast parameter important?

This is the difference in brightness between black and white images. For example: a contrast of 3000:1 means that a white picture is 3000 times brighter than a black picture. This characteristic is especially important for watching movies at home rather than for presentations. However, many manufacturers draw the attention of buyers to a high level of contrast, but this indicator is largely a marketing ploy. After all, contrast characterizes how deep the level of black color the projector is able to display in a completely black room, where even the reflection of light from the surface is excluded. But since absolute darkness is almost impossible to achieve in real life, it is difficult to achieve the declared contrast.

When choosing a home theater projector, contrast is of utmost importance. The better the room meets the requirements for a home theater, the less excess light falls on the screen and the closer the image contrast becomes to the contrast stated by the manufacturer of the projector itself (which was obtained in laboratory conditions).

As a result, in a home theater, the maximum brightness is limited to a level that is comfortable for the eyes and should not be too high. In these conditions, where the top bar is limited, the projector's contrast allows it to increase the dynamic range, or the number of gradations of brightness the projector is able to display. Also, the higher the contrast, the more the black looks like black rather than gray.

What resolutions are used in projectors?

Finally, one of the main indicators of a projector's image quality is its resolution (the number of pixels that form the image). You can compare the resolution with a regular mosaic of multi-colored pieces: the smaller the pieces and the greater their number, the clearer and more beautiful the picture will be.

There are many projector models with different resolutions, from SVGA (800x600) to 4K (4096x2160). It is important to understand that the higher the resolution, the higher the price of the projector. In order not to “shoot sparrows with a cannon” and purchase the optimal device, you need to take into account several parameters together.

Image source resolution. To watch TV and recorded TV programs, low-quality TV series, old DVDs and amateur videos, a small XGA resolution (1024x768) will be sufficient. For office presentations and viewing content from a computer, as well as for budget home theaters, the middle segment WXGA (1280×800) and HD-Ready 720p (1280×720) are suitable. To watch Blu-ray discs and games on modern consoles, it is better to use a Full HD 1080p (1920x1080) projector.

Screen size. Resolution directly affects the clarity of the image. Therefore, when the screen size is 3 m wide or more, it is recommended to use projectors with Full HD resolution and higher, since only they are able to provide a detailed image over a large screen area.

Before Buying a Multimedia Projector

However, as already mentioned, projectors are professional and technically complex equipment. Therefore, when selecting it, it is necessary to arm yourself with a sufficient set of knowledge or make the purchase together with a qualified specialist.

Currently, the following types of projection equipment are distinguished:

• LCD projectors - using liquid crystal matrices in red, green and blue colors, as well as a continuous stream of light, such projectors are ideal for displaying static images;
• DLP projectors - they use a different type of matrix, consisting of many moving mirrors, which, in combination with a color filter, produces a contrasting, clear dynamic image (video);
• LCOS projectors - combining the best qualities of the two previous technologies, such multimedia projectors boast higher optical resolution and better picture quality;
• Laser projectors are a modern achievement of progress. The image in such projectors is drawn using laser pulses that do not require focusing. Laser projectors always produce a picture that is perfectly sharp, even though they do not have a lens.

How does 3D support work in such devices?

When displaying 3D from a computer, you need to be sure that the projector supports the stereo pair format you are sending to it. Example formats are “top-bottom”, “side-by-side”, “frame packing”. To display 3D Blu-ray discs, an HDMI interface version starting from 1.4 is required.

3D is supported to some degree by many projectors, although the best quality is provided by devices specifically designed for this task. Any 3D technology works due to the fact that an image not intended for it is hidden from each eye. For example, active glasses alternately cover either the left or the right eye with an LCD screen. This leads to a multiple drop in the brightness of the 3D image, which is the main problem of any such system.

What connectors and interfaces are used in projectors

The standard set of connectors on most projectors includes HDMI and VGA interfaces. Both allow you to receive signals up to 1080p without any problems. However, if you want to show 3D in Blu-ray 3D format, you will need HDMI version 1.4 or higher.

Most projectors, except for installation and premium home ones, have built-in sound. In most cases, we are talking about one speaker with a power of 2 to 16 watts (the more, the louder). If you don’t have an external sound system at hand, you can transfer sound to the projector either together with video via HDMI, or separately, which requires an Audio In connector. In turn, the audio input can be either RCA (tulip) or a 3.5mm mini-jack, like headphones. Educational projectors may also be equipped with a microphone input.

A number of projectors have VGA and audio output connectors (VGA Out, Audio Out), which allow you to transmit the signal further to other devices, allowing the projector to work as a splitter. USB connectors can play different roles:

• connecting a document camera
• connecting USB media
• transferring video and sound from a computer
• transmitting mouse signals to the computer (from remote control buttons or interactive projectors)

In general, it is often impossible to figure out USB functionality without reading the instructions. For example, if external media is supported, what file formats can the projector play? USB inputs can also be of different formats - Type A (like flash drives), Type B (like printers), mini-USB. In education, older connectors such as RCA (Tulip) and S-Video may be in demand.

The HDBaseT interface is popular in installation projectors, allowing video and other information to be transmitted over long distances using a cheap cat5/6 network cable.

Projector in a relationship

Type compatibility plays a very important role in the composite. You can judge a lot by what Types your partners belong to. Let's see how the Projector's relationships with other Types can develop.

This article provides general patterns of interaction between Types. You can find out more detailed information by ordering a compatibility calculation.

Projector + Projector

Such relationships can be difficult. Since here we are dealing with two non-energy Types, in such a union both partners may experience an acute lack of energy. In this case, there is only one way out: lovers need to communicate more with other people. These could be friends, relatives, colleagues. Thus, each of the partners will be filled with energy and guide other people, thereby realizing their main purpose.

Projector + Generator

This is perhaps the most harmonious relationship of all possible. In such a union, the Projector will be able to charge energy from his lover and direct him in the correct direction. The generator, in turn, with the help of a partner, will find the correct use of its endless

vitality. The main thing is that the Projector learns to wait for an invitation from his lover and not give him unsolicited advice.

Projector + Manifesting Generator

As in the previous case, the Projector in such a union will be able to guide his partner and feed off his energy. The main thing is that he act tactfully in relation to his partner, because the Manifesting Generator has a Manifestor hypostasis, which means that by giving unsolicited advice, you can feel his anger.

Projector + Manifestor

This is one of the most difficult unions in all of Design. When giving advice to his lover, the Projector will now and then encounter anger and indignation. This means that in this situation, there is only one option for him: to provide his partner with absolute freedom and help him only if he asks for advice.

Projector + Reflector

The main difficulty of such relationships will be that here we are again dealing with two non-energy Types. In addition, the Reflector will reflect everything that happens to the Projector. And looking at yourself from the outside is not always easy or pleasant.

The main thing in such relationships is that the Projector does not put pressure on his partner and focuses on the energies of other people.

How long do projector lamps last?

Few people know, but replacing projector lamps is one of the hidden costs, which often causes an unpleasant surprise among users after a certain period of use of the device. Such products can cost several hundred dollars, and they will not be so easy to purchase. Therefore, when buying a projector, be sure to ask about the price of the lamp, service life and where you can buy it in the future.

As a rule, the average service life is two thousand hours. These indicators can be indicated on the manufacturer’s original packaging. However, the catch lies in the fact that after just a few hundred hours the brightness of the lamp can significantly decrease in relation to the original resource.

If the lamp is not able to produce maximum performance over a long period, then replacement of products will become a significant expense. In this case, it makes sense to purchase an expensive multimedia player with high-quality components rather than a cheap one with quickly burning out lamps.

Yuri Alisievich, Trade portal Shop.by

Projectors in Human Design

This is a relatively new type of person that appeared at the end of the 18th century. More precisely, 1781. The era of the emergence of democracy could not but affect human nature - a new type of person appeared - the Projector - the administrator of the new generation.

The good thing about Projectors is that they can interact with other types of energy (Generators and Manifestors) on a deeper level. On the other hand, it is important for them to accept the fact that by imitating energy types, Projectors can lose their uniqueness and natural gift.

Each representative of this type has a special skill - they see other people as if from the inside. You work with their energy and notice things that others are not even aware of. Projectors are the first to discover positive traits in those around them, they know how to build a team and guide. At the same time, if the Projector lives his design correctly and does not try to manifest or tell others exactly what to do, he is always comfortable under his leadership. They are born diplomats who can gently guide a conversation or another person in the right direction.

Design analysts are almost unanimous that Projectors on Earth will soon be the majority. They are more focused on the outside world and have an open aura. Unable to produce their own energy, they work with the fields of Manifestors and Generators, trying to better understand them and learn to manage them at the energetic level.

But it can be difficult for Projectors in today's world. You must learn those aspects of your Design that will help you adapt to the current society of dominant Generators. Study your profiles, channels, gates, centers - understand how you can use the gift of the Projector in the current conditions.

Just like Generators, Projectors need to learn to wait. Only in this case it will not be a response from the Sacral Center, but an invitation from the outside. We will consider the details in the strategy of behavior of this type.