space engineers lcd panel power usage manufacturer

2023-01-03 12:32:11

Configure:To display the power usage on a given lcd panel, the public title of the lcd panel has to be changed in Power. Then, when the script is running the public text is adapted.

Also, I run into problems when I use solar panels on rotor with script to align them, as they belong to a different grid. Turning the setting for considering only won grid to false does not solve issue, cause in that case I don"t get right the time for battery discharging, as it then counts docked ships as well. Would be nice to be able to include power generators from other grids based on group or connection...

@rubinknoepfel Hi matey, I just downloaded the script to my base, checked code, and then the error appears in UI menu of the prog block. I have a few scripts on but ive turned all of them off... recompiled n still the same error ... i have a few mods too but nothing power related

space engineers lcd panel power usage manufacturer

The various LCD Panel blocks are a great way to add a human touch to a ship or base by displaying useful images or text. For LCD configuration and usage, see LCD Surface Options.

Note: Some functional blocks, such as Cockpits, Programmable Blocks, Custom Turret Controllers, and Button Panels, have customizable LCD surfaces built in that work the same way as LCD Panel blocks, which are also discussed in detail under LCD Surface Options.

LCD Panels need to be built on a powered grid to work. Without power, they display an "Offline" text. While powered without having a text, image, or script set up, they display "Online".

LCD Panel blocks come in a variety of sizes from tiny to huge (see list below) and are available for large and small grid sizes. Note that LCD Panel blocks all have connections on their backs, and very few also on a second side.

All LCD Panels and LCD surfaces work with the same principle: They are capable of displaying dynamic scripts, or few inbuilt static images accompanied by editable text. Access the ship"s Control Panel Screen to configure LCD Panels or LCD surfaces; or face the LCD Panel block and press "K".

A Text Panel, despite its name, can also display images. On large grid, it is rectangular and does not fully cover the side of a 1x1x1 block. On small grid it is 1x1x1, the smallest possible LCD block in game.

On large grid, you choose the Text Panel when you need something that has rectangular dimensions that make it look like a wall-mounted TV or computer screen. If you want to display images, this one works best with the built-in posters whose names end in "H" or "V" (for horizontal or vertical rotation). On Small grid, you place these tiny display surfaces so you can see them well while seated in a cockpit or control seat, to create a custom display array of flight and status information around you.

Corner LCDs are much smaller display panels that typically hold a few lines of text. They don"t cover the block you place them on and are best suited as signage for doors, passages, or containers. They are less suitable for displaying images, even though it"s possible. If you enable the "Keep aspect ratio" option, the image will take up less than a third of the available space.

These huge Sci-Fi LCD Panels come in sizes of 5x5, 5x3, and 3x3 blocks, and can be built on large grids only. These panels are only available to build if you purchase the "Sparks of the Future" pack DLC.

They work the same as all other LCD Panels, the only difference is that they are very large. In the scenario that comes with the free "Sparks of the Future" update, they are used prominently as advertisement boards on an asteroid station.

This LCD panel can be built on large and small grids. The transparent LCD is basically a 1x1x1 framed window that displays images and text. It is part of the paid "Decorative Blocks Pack #2" DLC.

What is special about them is that if you set the background color to black, this panel becomes a transparent window with a built-in display. In contrast to other LCD Panels it has no solid backside, which makes it ideal to construct transparent cockpit HUDs, or simply as cosmetic decoration.

While configuring an LCD Panel, the GUI covers up the display in-world and you can"t see how the text or images comes out. In the UI Options, you can lower the UI Background opacity to be translucent, so you can watch what you are doing more easily.

space engineers lcd panel power usage manufacturer

Electricity is a system and resource in Space Engineers that is used to power most devices. It is created using a Large Reactor, Small Reactor, Wind Turbine, Hydrogen Engine, or Solar Panel. It can be stored in a Battery and discharged to the grid it is built on. Any device that has a direct block connection to a power source will be powered by that power source; that is, if a reactor is on a ship, all devices attached to that ship should receive power - provided there is enough power to supply all active blocks on the grid.

In Space Engineers the rate of energy transfer and energy conversion is expressed in watt (W). The unit watt comes commonly prefixed to kW or MW, as seen in the table. An amount of stored electricity is expressed in watt hours (Wh), which can be thought of as the product of a rate of energy transfer and a time this rate was sustained. If, for example, you need 500 W for 5 hours, a battery storing electricity to the amount of 500W*5h = 2500 Wh = 2.5 kWh will suffice. Typically you will encounter Wh, kWh, and MWh units in the game referring to stored energy in a charged battery or in fuel like uranium ingots. Conversely, W, kW, and MW units describe a rate consumers (e.g. refineries) and producers (e.g. reactors) of electricity work at.

Reactors are the main source of reliable electricity, and they require Uranium ingots as fuel. 1 kg of uranium ingots will be exploited for 1 MWh of power. That is the equivalent of a reactor being drawn on to supply 1 MW for 1 hour, or 2 MW for half an hour and so on.

A large block Small Reactor generating electricity at its maximum rate of 15 MW to supply a large ship"s total electrical needs (such as refineries, thrusters at full capacity, etc), will consume 1 kg of uranium in 4 minutes, while a large block Large Reactor will consume 1 kg of uranium ingots in as little as 12 seconds at its full output of 300 MW. Consumption of Uranium is solely decided by your current energy demand. There is no difference in efficiency between large and small reactors per uranium ingot, so a large reactor doesn"t use uranium or extract any more energy out of uranium ingots than any small one would. It also makes no difference how many reactors you have online, reactors that are not needed will not draw any unnecessary power or use any uranium within them until required.

A Battery is special in that it doesn"t generate electricity, it merely stores it for later use. It"s wise to combine renewable electrical generation from solar panels with batteries and not reactors since a battery charging from the latter is only 80% efficient. This efficiency penalty means that a battery needs 20% more power (Wh) for the energy it will store and return. That is while it will return 3 MWh (for large batteries) charging at a maximum rate of 12 MW, the battery will require 3.6 MWh for a full charge, thus 600 kWh will be wasted. A Large Ship battery continuously drawn on at its maximum output rate of 12 MW, beginning at full charge of 3 MWh, will deplete in 15 minutes.

In Space Engineers, electricity sources are ranked in order of which of them will be used first to fulfill electrical demand as a sort of automatic intelligent power management sub-system. The purpose of this is to utilise power sources intelligently, for example if there is both a Solar Panel and a Large Reactor available to use. Instead of equally distributing a load across them the grid will attempt to utilise all of the output of a solar panel, before using the reactor and use the reactor to make up any difference in demand that the solar panel cannot provide. Thereby saving Uranium, instead of needlessly letting solar power go to waste.

In addition to this, the electrical system will also prioritize certain sub-systems over others in the event of a power deficit - that is, insufficient output available to meet demand. Most of the lower ranked ones such as Batteries, Thrust and Charging are adaptable meaning they automatically handle reduced input but function with lesser effect for thrusters this means they still provide thrust but not as much as they could at full power, while batteries simply take longer to recharge. Certain systems are not adaptable meaning they either receive power or don"t resulting in blocks shutting off.

(*) Solar Panels have a maximum output depending on their angle to the sun and the amount of actually lit surface. Given values are the maximum achievable output with perfect conditions, therefore efficiency and output may vary.

Comparing them directly, the small reactor provides far more energy for the space it takes up; for example, 20 Small Reactors is equal to the output of a Large Reactor with only two-thirds of the space used. Despite this the large reactor offers greater economies of scale, requires less Conveyor complexity and in general is more useful in a variety of important applications especially as Powerplants for Large Ships, being both lighter and requiring fewer resources to construct. This makes Large Reactors ideal for ships that can take advantage of their reduced mass and accelerate or decelerate more easily, and therefore use less Uranium Ingots. Small Reactors are therefore ideal for stations that do not need to move, situations where physical space is precious or presents relatively light power needs that would not require a larger more expensive reactor. For example, a large reactor only needs 40 Metal Grids while a small reactor needs 4 Metal Grids at approximately 10 Small Reactors (150 MW) you would start to see economy of scale benefits clearly when using the large reactor. Between them however, they use Uranium Ingots equally as efficiently neither one will manage to extract more energy than they would otherwise have to.

(***) The power cost of Gravity Generator is directly proportional to the field size and acceleration (absolute value, so 1 g consumes the same as -1 g).

space engineers lcd panel power usage manufacturer

Space Engineers is a voxel-based sandbox game, developed and published by Czech independent developer Keen Software House. In 2013, the initial developmental release of the game joined the Steam early access program. During the following years of active development, Space Engineers sold over one million units. In total as of 2019 the game has sold over 3.5 million copiessource code was officially available and maintained by KSH to assist the modding community.Beta and was later officially released on February 28, 2019.

Gameplay of Space Engineers begins with the player selecting or joining a world with specific settings, such as the number of asteroids (an "empty world" can also be picked) and the available starting equipment. When creating or editing a world, several advanced options are available to change how the player will interact with the world, and how the worlds will appear. This includes changing the speed with which several tools and machines will work, the size of the player"s inventory, and whether procedural generation will be used (effectively making the world infinite). Upon confirming the world settings, a loading screen appears while the world is generated. This screen consists of a random in-game screenshot as a backdrop, the game"s logo, an animated loading icon, and a randomly selected message at the center. The message may be either a helpful gameplay hint, or one of many quotations concerning space, science, and/or engineering. Many of these quotes are from notable scientists such as Isaac Newton, Galileo Galilei, Albert Einstein, as well as authors such as Arthur C. Clarke.

Once in-game, the player is given control of a single astronaut (referred to as a "Space Engineer") and a set of tools comprising a drill, a welder, and a grinder (if spawn with tools is on). Construction begins by choosing any block from the Engineer"s inventory, and placing it anywhere in open space to create a new voxel grid. Additional blocks can then be added to this grid to create a structure.

aesthetic purpose. Armor blocks, the most basic and common of all blocks, can be realistically damaged and deformed through collisions or the use of weapons.keypads, which can be used to view and manipulate the status of other specific blocks attached to the structure. To be functionally connected however, and to transport materials, blocks called "conveyors" must be used to connect the desired machines. "Functional" blocks require power, which can be provided by solar panels or nuclear reactors attached to the same structure. While reactors must be supplied with uranium, and produce large amounts of power while active, solar panels will continually produce a low output of power when there is line-of-sight to the sun. Once being produced, power is automatically distributed throughout the entire structure and can also be stored in batteries.

Ships can be deliberately moved and rotated by external forces and a player as long as they are powered and have at least one gyroscope, thruster, and cockpit. To be able to move in any direction and then be able to stop effectively via inertia dampeners, thrusters must be placed on the structure facing up, down, forward, backward, left, and right. More gyroscopes on a ship will increase the ship"s ability to rotate in space, but in order for the inertial dampeners to be more effective, more thrusters must be added in each direction in which dampening is required.

Astronauts floating in space are able to move forward, backward, upwards, downwards, left, or right without restriction by using a jetpack. They are also able to rotate clockwise or counterclockwise. Astronauts and structures can also enable or disable inertial dampeners, which automatically attempt to reduce speed to zero when force is not being applied, and the required thrusters are installed.

If the player disables their jetpack within a gravitational field (either on the surface of a planet or a structure/asteroid with a gravity generator), movement is restricted to a plane perpendicular to the direction of the net gravity field(s). Vertical viewing angle is also restricted between −90 and 90 degrees, as in most first-person shooters. Ships and structures are unaffected by gravity generators unless equipped with at least one Artificial Mass block. If the player falls off a structure while within a gravity field, they will fall into space until out of range of the gravity generator, at which point the player"s jetpack will automatically enable itself. However, if the player touches their feet to an asteroid or structure with no gravity present, their "mag-boots" will enable them to walk across its surface and even around edges; though jumping will disconnect the player from the surface, and they cannot traverse the 90-degree angle between a floor and wall.

Asteroids and planets consist of terrain voxels, which substantially differ from blocks, and although possible to destroy by the player, cannot be created by them unless in creative mode. Celestial objects are currently fixed in space and cannot move, however, rocks/minerals that have been mined are subject to gravity and will react accordingly. Asteroids also do not currently have gravity associated with them, and can come in several basic forms including spherical, torus, and rod-shapes, as well other variations or combinations of these.

In survival mode, players need to mine, collect, and refine various chemical elements from asteroids and planets in order to craft tools, weapons, and blocks as well as produce electricity. Resources can be mined manually using a hand drill, or by using ships with the necessary equipment. Components are produced by assembling them from raw materials; however, they can also be harvested by salvaging cargo ships. To avoid death, players must monitor their health, energy and oxygen levels. Damage can be inflicted on the player by collisions, weapons, contact with thrusters, meteor showers, or by running out of space suit energy. Collisions at higher speeds result in more damage. As the acceleration value of gravity generators stacks, damage from falling can be much more dangerous when multiple gravity generators are active. A player"s health and energy can be restored using a Medical Room block, and energy can also be replenished by sitting in the cockpit of any powered structure. The development of survival mode began at the end of summer of 2013.

In the survival mode of the game, all actions, including survival itself due to the power requirements of the space-suit"s life-support system, depend on the gathering and refining of certain minerals. These minerals can be found on asteroids or planets, plundered from randomly spawned ships, or recovered from unknown signals. Raw materials are mined from deposits of ore on asteroids, and are then placed (or sent using a conveyor system) into a basic refinery or refinery in order to refine them to be used in assemblers. The refined materials are formed into various components in the assembler which can then be used in the construction of ships or stations.

Inventories in Space Engineers are very flexible and work in a whole-ship manner rather than in an individual one. All inventories connected to a ship can be viewed from any access panel on the same ship, however inventories must be connected via conveyors and conveyor tubes in order for items to be transferred among them. Inventories of refineries and assemblers will automatically request items to refine from connected inventories when they get low, and will send items into an available inventory when it fills up. The conveyor sorter allows inventories to be automatically removed and sorted from and into certain inventories. Instead of a common slot system, Space Engineers uses a volumetric system, measured in litres, with every item having a certain amount of volume and every inventory a certain capacity that it cannot exceed.

Planets in Space Engineers were released on November 12, 2015, after being in development since February 2015. There are several types of planets, themed after Earth, the Moon, Mars, Titan, Europa, and an "alien" planet.NPCs, and the Earth-like planet features wolves, hostile dog-like NPCs.

Atmospheric flight is possible even on worlds with oxygen-deprived atmospheres. In order to leave a planet, the player will need to use hydrogen engines with sufficient fuel or build a hybrid spacecraft with atmospheric engines (for liftoff) and ion engines (upper atmosphere to space).

Hybrid surface-to-orbit craft are considerably heavier than their space-only counterparts, but can be built compact enough to fit inside a standard hangar.

Each probe also possesses a button, which when pressed has a chance to reward the player with a collectible skin, similar to a loot box. The skin can be for the player character"s helmet, suit, boots, or tools, and can be traded or sold on the Steam Market. Each skin can be obtained for free in-game, with the exception of three sets: the Veteran Set, which was awarded to players who had owned the game before and played between August and September 2017; the Medieval Set, which is awarded to players who also own Medieval Engineers; and the Golden Set, which is awarded to players who purchase the Space Engineers Deluxe Edition.

Space Engineers was developed and published by the indie video game developer Keen Software House based in the Czech Republic. Implemented as a voxel-based sandbox game set in an asteroid field in space, built on their own game engine, VRAGE 2.

The pre-release alpha build was released on October 23, 2013 on Steam, featuring a single-player "creative" mode. On February 24, 2014, the company announced that Space Engineers had sold over 250,000 copies in four months.Space Engineers have been achieved: survival mode and multiplayer.

Adds Dispenser and jukebox blocks, a transparent LCD panel (useful for creating custom HUDs), various interior furnishings and window blocks, new catwalk blocks, railings, stairs and half stairs, a rotating warning light fixture, and a small collection of decorative metal crates.

Adds the Frostbite Scenario, the Antenna Dish, decorative engineer cadavers (skeletons in suits, for atmosphere), a 7.5m wide by 5m tall airtight door block, an offset door, a blizzard-themed block texture overlay, a pair of "I’m Cold" and "Checking suit vitals display" emotes, and some LCD posters.

Includes a set of decorative neon tubes, sci-fi versions of various blocks such as the "Ion" and "Atmospheric" thrusters, LCD panels, Interior walls, button panels, sliding doors, and various button panels.

Adds a Large (7.5m by 7.5m) Magnetic plate, a set of truss beam blocks and Industrial conveyor pipes, a decorative cylindrical column block, a vertical button panel, remodeled versions of the Large Hydrogen Tank; Large Cargo Container; Refinery; Assembler; and Hydrogen Thrusters. And a hazard pattern block texture overlay.

A model and texture overhaul of the nuclear reactors; battery blocks; airtight hangar doors; rocket pod and gatling gun; and couch block. It also contains a "searchlight" block (a spotlight-camera-turret combo), a heat vent block, a set of bridge windows, a light panel, a "helm" station, a new helmet, a reinforced sliding door, and two new emotes.

Rosa, Marek (May 14, 2015). "Space Engineers – full source code access, total modifications and 100,000 USD fund". marekrosa.org. Retrieved June 16, 2015. Today we have a very important announcement for our modders and our community. We decided to give you 100% complete access to Space Engineers" source code. This comes as a continuation of our decision to give more freedom to modders and community.

"EULA.txt". . Retrieved October 19, 2021. The source code and art assets must not to be mistaken for free software, an open source in a free-software activist understanding, copy-left or public domain software. All source code and art assets remain copyrighted and licensed by KEEN SWH LTD. and you are allowed to use them (modify, tweak, make a derivative work, distribute, etc.) only under following conditions. [...]use this source code only for developing mods for Space Engineers.

space engineers lcd panel power usage manufacturer

After many requests, we have decided to release our internal Replay Tool that we use to create our trailers. It allows you to record the movement and actions of multiple characters in the same world. You can use your video recording software of choice to capture these moments for cinematic purposes! It’s also super useful for epic screenshot creation. The tool allows you to be the director of your own Space Engineers film where you can carefully position and time different engineers with their own specific roles. We are extremely excited to see what the community will create with this!

Important: because it’s an internal tool, it has a very basic user interface and required advanced users to be used. We believe this is OK, because most video creators who would want to use it to create epic cinematic Space Engineers videos are advanced users.

There are now Steam trading cards to collect for Space Engineers! Collect a full set of cards to earn items that help you customize your Steam profile including backgrounds and badges.

There are fourteen new decorative blocks for people who want to buy them and support the development of Space Engineers, which are available on the Space Engineers Steam Store page. Within the package you will get following new blocks:

Beds can preserve characters’ inventory and toolbar while they"re offline and keeps them alive as long as there is oxygen available. Is considered to be the same as the Cryo Chamber Block, except oxygen is used from the environment. Space Engineers don’t work from nine to five, they work whenever they’re needed: day or night, during peace and war. But when it’s time to call it a day, every engineer looks forward to resting in these beds.

Kitchens are purely decorative. The kitchens in Space Engineers come well-equipped and include stunning visual details. Space Engineers overcome challenges everyday when they’re working on new planets or among the stars.

Planters are purely decorative, but they make outer space a bit warmer by housing life in a special glass container. Build your own garden on the space station. Planters not only help to liven up spaces, but the flora housed inside these capsules also remind many engineers of the homes they’ve left behind in order to explore the universe.

Couchescan be used as seats, so take your time to relax and take a break. You don’t need to always run, fly or work, you can enjoy your cozy room and enjoy the view. The last thing anyone would ever call a Space Engineer is ‘couch potato’, but who wouldn’t like to relax after a hard day’s work on this comfy furniture?

Armory and Armory Lockers can be used to decorate interiors and store weapons, ammunition, tools and bottles; both are small storages (400L), where you can keep your equipment. Space Engineers use lockers in order to ensure that keepsakes from home, toiletries and other items are kept safe.

Toiletscan be used as a seat. The latest and greatest interstellar lavatory technology has made many earth dwellers jealous of the facilities enjoyed by Space Engineers.

Toilet Seat that can be used as a seat and is fit for the creator of the legendary Red Ship; most engineers don’t want to get up after ‘taking care of business’.

Industrial Cockpits are used to control your ships. This industrial cockpit in both small and large grid versions will make your creations look much better. Offering unmatched visibility, the industrial cockpit enables engineers to experience stunning vistas while traversing landscapes and space.

Console blocks project blueprints for downscaled ships and stations, as well as display pictograms or customizable text. They are fantastic functional LCD panels where you can project your creations and show them to your friends. The sleek and crystal clear picture offered by this console allows Space Engineers to display designs and other important information.

Keen Software House needs to stay profitable in order to continue development and support of Space Engineers, and to take risks, to invest into experiments that may not pay off in the short term, and to develop innovative concepts.

A:Actually, even this update isn’t paid. The major part of this update (LCD screens, Replay Tool, new music tracks, smaller improvements) is free for everyone. Only the smaller and not mandatory part is paid - Decorative Pack, which you can purchase here.

A: To support future development of Space Engineers and other leading-edge projects we plan to work on at Keen Software House. Players kept asking us for something they could buy to support the development of Space Engineers, and the Decorative Pack is a great option for them.

A: Right after Space Engineers left early access and all hot issues were resolved. Most of the work was done by the Art team, the rest of the developers is working on other long-term updates.

A: We want more people to play Space Engineers, which means we must lower the barrier of entry. When the Space Engineers community grows, everyone benefits from this - more content on Workshop, more mods, more new ideas, more people to play with. This means that all non-mandatory features should be optional, so only those who really want them can pay for them. That’s why we decreased the price of Space Engineers, and made the Decorative Pack an optional purchase.

space engineers lcd panel power usage manufacturer

So, why is this important? A monitor’s panel technology is important because it affects what the monitor can do and for which uses it is best suited. Each of the monitor panel types listed above offer their own distinctive benefits and drawbacks.

Choosing which type of monitor panel type to buy will depend largely on your intended usage and personal preference. After all, gamers, graphic designers, and office workers all have different requirements. Specific types of displays are best suited for different usage scenarios.

The reason for this is because none of the different monitor panel types as they are today can be classified as “outstanding” for all of the attributes mentioned above.

Below we’ll take a look at how IPS, TN, and VA monitors affect screen performance and do some handy summaries of strengths, weaknesses, and best-case uses for each type of panel technology.

IPS monitors or “In-Plane Switching” monitors, leverage liquid crystals aligned in parallel to produce rich colors. IPS panels are defined by the shifting patterns of their liquid crystals. These monitors were designed to overcome the limitations of TN panels. The liquid crystal’s ability to shift horizontally creates better viewing angles.

IPS monitor variations include S-IPS, H-IPS, e-IPS and P-IPS, and PLS (Plane-to-Line Switching), the latter being the latest iteration. Since these variations are all quite similar, they are all collectively referred to as “IPS-type” panels. They all claim to deliver the major benefits associated with IPS monitors – great color and ultra-wide viewing angles.

Another important characteristic of IPS monitors is that they are able to support professional color space technologies, such as Adobe RGB. This is due to the fact that IPS monitors are able to offer more displayable colors, which help improve color accuracy.

With regard to gaming, some criticisms IPS monitors include more visible motion blur coming as a result of slower response times, however the impact of motion blur will vary from user to user. In fact, mixed opinions about the “drawbacks” of IPS monitor for gaming can be found all across the web. Take this excerpt from one gaming technology writer for example: “As for pixel response, opinions vary. I personally think IPS panels are quick enough for almost all gaming. If your gaming life is absolutely and exclusively about hair-trigger shooters, OK, you’ll want the fastest response, lowest latency LCD monitor. And that means TN. For the rest of us, and certainly for those who place even a modicum of importance on the visual spectacle of games, I reckon IPS is clearly the best panel technology.” Read the full article here.

IPS monitors deliver ultra-wide 178-degree vertical and horizontal viewing angles. Graphic designers, CAD engineers, pro photographers, and video editors will benefit from using an IPS monitor. Many value the color benefits of IPS monitors and tech advances have improved IPS panel speed, contrast, and resolution. IPS monitors are more attractive than ever for general desktop work as well as many types of gaming. They’re even versatile enough to be used in different monitor styles, so if you’ve ever compared an ultrawide vs. dual monitor setup or considered the benefits of curved vs. flat monitors, chances are you’ve already come into contact with an IPS panel.

TN monitors, or “Twisted Nematic” monitors, are the oldest LCD panel types around. TN panels cost less than their IPS and VA counterparts and are a popular mainstream display technology for desktop and laptop displays.

Despite their lower perceived value, TN-based displays are the panel type preferred by competitive gamers. The reason for this is because TN panels can achieve a rapid response time and the fastest refresh rates on the market (like this 240Hz eSports monitor). To this effect, TN monitors are able to reduce blurring and screen tearing in fast-paced games when compared to an IPS or VA panel.

On the flip side, however, TN panel technology tends to be ill-suited for applications that benefit from wider viewing angles, higher contrast ratios, and better color accuracy. That being said, LED technology has helped shift the perspective and today’s LED-backlit TN models offer higher brightness along with better blacks and higher contrast ratios.

The greatest constraint of TN panel technology, however, is a narrower viewing angle as TN monitors experience more color shifting than other types of panels when being viewed at an angle.

Today’s maximum possible viewing angles are 178 degrees both horizontally and vertically (178º/178º), yet TN panels are limited to viewing angles of approximately 170 degrees horizontal and 160 degrees vertical (170º /160º).

TN monitors are the least expensive panel technology, making them ideal for cost-conscious businesses and consumers. In addition, TN monitors enjoy unmatched popularity with competitive gamers and other users who seek rapid graphics display.

Vertical alignment (VA) panel technology was developed to improve upon the drawbacks of TN. Current VA-based monitors offer muchhigher contrast, better color reproduction, and wider viewing angles than TN panels. Variations you may see include P-MVA, S-MVA, and AMVA (Advanced MVA).

These high-end VA-type monitors rival IPS monitors as the best panel technology for professional-level color-critical applications. One of the standout features of VA technology is that it is particularly good at blocking light from the backlight when it’s not needed. This enables VA panels to display deeper blacks and static contrast ratios of up to several times higher than the other LCD technologies. The benefit of this is that VA monitors with high contrast ratios can deliver intense blacks and richer colors.

MVA and other recent VA technologies offer the highest static contrast ratios of any panel technology. This allows for an outstanding visual experience for movie enthusiasts and other users seeking depth of detail. Higher-end, feature-rich MVA displays offer the consistent, authentic color representation needed by graphic designers and other pro users.

There is another type of panel technology that differs from the monitor types discussed above and that is OLED or “Organic Light Emitting Diode” technology. OLEDs differ from LCDs because they use positively/negatively charged ions to light up every pixel individually, while LCDs use a backlight, which can create an unwanted glow. OLEDs avoid screen glow (and create darker blacks) by not using a backlight. One of the drawbacks of OLED technology is that it is usually pricier than any of the other types of technology explained.

When it comes to choosing the right LCD panel technology, there is no single right answer. Each of the three primary technologies offers distinct strengths and weaknesses. Looking at different features and specs helps you identify which monitor best fits your needs.

LCD or “Liquid Crystal Display” is a type of monitor panel that embraces thin layers of liquid crystals sandwiched between two layers of filters and electrodes.

While CRT monitors used to fire electrons against glass surfaces, LCD monitors operate using backlights and liquid crystals. The LCD panel is a flat sheet of material that contains layers of filters, glass, electrodes, liquid crystals, and a backlight. Polarized light (meaning only half of it shines through) is directed towards a rectangular grid of liquid crystals and beamed through.

Note: When searching for monitors you can be sure to come across the term “LED Panel” at some point or another. An LED panel is an LCD screen with an LED – (Light Emitting Diode) – backlight. LEDs provide a brighter light source while using much less energy. They also have the ability to produce white color, in addition to traditional RGB color, and are the panel type used in HDR monitors.

Early LCD panels used passive-matrix technology and were criticized for blurry imagery. The reason for this is because quick image changes require liquid crystals to change phase quickly and passive matrix technology was limited in terms of how quickly liquid crystals could change phase.

Thanks to active-matrix technology, LCD monitor panels were able to change images very quickly and the technology began being used by newer LCD panels.

Ultimately, budget and feature preferences will determine the best fit for each user. Among the available monitors of each panel type there will also be a range of price points and feature sets. Additionally, overall quality may vary among manufacturers due to factors related to a display’s components, manufacturing, and design.

Alternatively, if you’re into gaming and are in the market for TN panel these gaming monitor options may be along the lines of what you’re looking for.

But it will decrease the performance of the game - you need to have powerful GPU for that, as each screen is essentially another frame to render. Thus if your FPS is 40, with another camera-on-screen it might drop to 20 (if low FPS was caused by taxed GPU, not overloaded CPU). And it will incur some cost in CPU performance.

It did have the drawbacks it was claimed such a mod would have... it"s just, it was showcased on powerful computers with enough frames to spare. The second you don"t have a powerful computer, you"ll see the drawbacks quickly. This is why it wasn"t made vanilla.

Duke Nukem 3d had a camera view to screen feature in a game with user generated maps/layouts 22 years ago. Granted it wasn"t 1080p but I don"t think anyones expecting that from a Text panel. Unpossible!

glad to see this thread bumped i find it ridiculous that this isn"t already in the game. Surely you could implement this with some sort of anti-rastorization method where you just don"t render the parts of the ship eclipsed by the display just like if you gave dirt or whatever a transparent texture back in minceraft, that"s how rodina does it; and even without the fact that this method would be way more efficient, you would also end up with a better, more spacey, implementation "cause it would have perspective.

It is possible, but that was never a simple mod; that entry on the Steam workshop was just to add the terminal controls, the actual code was in a plugin (Client Extender) that you had to install alongside the game.It allowed you to write frames to textures and had a priority queue system so it would never drain your FPS more than you allowed it, and you could give client-side priority to cameras; if you"re in a big battle with a bunch of different people who also use LCD feeds then, from your perspective, yours would be updated first and fastest regardless.

I saw Camera, LCD, then it was obvious I could link a camera feed to one of cockpit LCD to have a view..... even at low resolution, and even with limitation numbers.

In short, as many people out there, I really believe that this should"ve been in the vanilla game since the LCD"s were introduced and also believe that it would elevate the game play so much.

Having the ability to view a camera image from an LCD in a basement - which is what I nearly always end up building in order to protect my gear from meteorites - would be a massive boon.

Also, displaying multiple camera images on LCDs means that a ship could have a decent bridge buried deep inside it and still have good visibility of the surrounding space, without needing to cycle through cameras while sitting in a control seat.

Having the ability to view a camera image from an LCD in a basement - which is what I nearly always end up building in order to protect my gear from meteorites - would be a massive boon.

The mod is smart about it and makes it so that the LCD can "share" frames instead. So it can update at 30 fps but it doubles the GPU Render Load, or all the way down to 1fps which divides evenly amongst other LCDs. So if you had the setting at 30fps they"d each run at 15fps, which would divide further as you added more.

The Mods we had, are more or less a collection of workarounds to make this feature somewhat functioning, but someone with unrestricted access to the source code, should be able to implement, at least the frame work, for such a function, without all too heavy performance impacts. Furthermore we are in an age, of ridiculously powerfull GPU like the Nvidia 30 Series and Space Engineers never was a casual game, requirement wise. And for those with a too weak system, we could make a tab in the world settings to disable this feature.

i would make lcd refresh rate based on distance to closest player, that is looking at that lcd - so game would crank up lcd fps only when someone is actually looking at it and "freeze" display when nobody is around or looking on something else ....

If a remote camera LCD isn"t in visible range to a player, then don"t gather render data from the camera nor render the camera onto the LCD. I do not believe this is something that a modder could do, since it would require access to a player"s rendering data and being able to detect if any remote camera LCDs are within what"s being rendered.

Any camera feeds are sampled at a lower resolution and also rendered to LCDs at a lower resolution than when a player views through the camera directly. With a lower resolution on both sampling and rendering I would expect GPU stress to be lower as well.

Nested camera LCDs (any LCD"s rendering a camera that are THEN viewed by a later camera and rendered to a later LCD) would be only rendered at 1fps and only when the player is looking at the later LCD, otherwise it is not rendered. Or just don"t render nested camera LCDs at all, though that might confuse some players if done without explanation.

Many games implement in-view screens of the game world. This isn"t new and not impossible just something Keen chose not to implement with their time. Other priorities. The LCD displays in the game and the cameras seem like a perfect match.

I tested this plugin, and it works, but for me, it tends to generate some visual light bugs, as well as having a huge performance penalty. I think if the devs would add this feature straight into the game code itself, it can be much better controlled in terms of possible bugs and as previously mentioned a player could select render resolution and frame rate themselves to suit their needs as well as reduce the performance penalty depending on their specific GPU computing power.

The troll face says it all. PC gamers also have low end hardware. There is a bit of psychology at work here though. If your PC can"t handle the camera-to-LCD feature you may chose to turn it off for now, maybe consider a GPU or RAM upgrade or just accept it for now. For cool screenshots you can always turn it back on temporarily. You feel like it"s all in your hands. On a console on the other hand, graphics and complexity are often locked down, like the number of planets or asteroids. You can"t upgrade a hardware component or decide for yourself if camera-to-LCD is worth the performance hit. Others decide what your console can handle. You begin to feel disenfranchised compared to a PC gamer with comparable hardware.

As can be seen in this YouTube Video (https://www.youtube.com/watch?v=cWpFZbjtSQg) implementing a camera feed to the LCD screens shouldn"t be thatdifficult. Now one difference would be the need to dynamically alter the position of the projection but even as an inexperienced programmer that is not an issue. If the devs have some competence (which I would assume given they developed this game) it should not be a problem to implement at all, except of course the issue with consoles other users mentioned. Drawing a second camera is expensive for the render engine but if not done at full resolution, unless the player is accessing the camera directly, I fail to see any issues except poor performance on low end pc"s and console, which imo is already the case so that would be a drop of water in an ocean.

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If you’ve ever tried to connect an LCD display to an Arduino, you might have noticed that it consumes a lot of pins on the Arduino. Even in 4-bit mode, the Arduino still requires a total of seven connections – which is half of the Arduino’s available digital I/O pins.

The solution is to use an I2C LCD display. It consumes only two I/O pins that are not even part of the set of digital I/O pins and can be shared with other I2C devices as well.

True to their name, these LCDs are ideal for displaying only text/characters. A 16×2 character LCD, for example, has an LED backlight and can display 32 ASCII characters in two rows of 16 characters each.

At the heart of the adapter is an 8-bit I/O expander chip – PCF8574. This chip converts the I2C data from an Arduino into the parallel data required for an LCD display.

In addition, there is a jumper on the board that supplies power to the backlight. To control the intensity of the backlight, you can remove the jumper and apply external voltage to the header pin that is marked ‘LED’.

If you are using multiple devices on the same I2C bus, you may need to set a different I2C address for the LCD adapter so that it does not conflict with another I2C device.

An important point here is that several companies manufacture the same PCF8574 chip, Texas Instruments and NXP Semiconductors, to name a few. And the I2C address of your LCD depends on the chip manufacturer.

So your LCD probably has a default I2C address 0x27Hex or 0x3FHex. However it is recommended that you find out the actual I2C address of the LCD before using it.

Connecting an I2C LCD is much easier than connecting a standard LCD. You only need to connect 4 pins instead of 12. Start by connecting the VCC pin to the 5V output on the Arduino and GND to ground.

After wiring up the LCD you’ll need to adjust the contrast of the display. On the I2C module you will find a potentiometer that you can rotate with a small screwdriver.

Plug in the Arduino’s USB connector to power the LCD. You will see the backlight lit up. Now as you turn the knob on the potentiometer, you will start to see the first row of rectangles. If that happens, Congratulations! Your LCD is working fine.

To drive an I2C LCD you must first install a library called LiquidCrystal_I2C. This library is an enhanced version of the LiquidCrystal library that comes with your Arduino IDE.

The I2C address of your LCD depends on the manufacturer, as mentioned earlier. If your LCD has a Texas Instruments’ PCF8574 chip, its default I2C address is 0x27Hex. If your LCD has NXP Semiconductors’ PCF8574 chip, its default I2C address is 0x3FHex.

So your LCD probably has I2C address 0x27Hex or 0x3FHex. However it is recommended that you find out the actual I2C address of the LCD before using it. Luckily there’s an easy way to do this, thanks to the Nick Gammon.

But, before you proceed to upload the sketch, you need to make a small change to make it work for you. You must pass the I2C address of your LCD and the dimensions of the display to the constructor of the LiquidCrystal_I2C class. If you are using a 16×2 character LCD, pass the 16 and 2; If you’re using a 20×4 LCD, pass 20 and 4. You got the point!

In ‘setup’ we call three functions. The first function is init(). It initializes the LCD object. The second function is clear(). This clears the LCD screen and moves the cursor to the top left corner. And third, the backlight() function turns on the LCD backlight.

After that we set the cursor position to the third column of the first row by calling the function lcd.setCursor(2, 0). The cursor position specifies the location where you want the new text to be displayed on the LCD. The upper left corner is assumed to be col=0, row=0.

There are some useful functions you can use with LiquidCrystal_I2C objects. Some of them are listed below:lcd.home() function is used to position the cursor in the upper-left of the LCD without clearing the display.

lcd.scrollDisplayRight() function scrolls the contents of the display one space to the right. If you want the text to scroll continuously, you have to use this function inside a for loop.

lcd.scrollDisplayLeft() function scrolls the contents of the display one space to the left. Similar to above function, use this inside a for loop for continuous scrolling.

If you find the characters on the display dull and boring, you can create your own custom characters (glyphs) and symbols for your LCD. They are extremely useful when you want to display a character that is not part of the standard ASCII character set.

CGROM is used to store all permanent fonts that are displayed using their ASCII codes. For example, if we send 0x41 to the LCD, the letter ‘A’ will be printed on the display.

CGRAM is another memory used to store user defined characters. This RAM is limited to 64 bytes. For a 5×8 pixel based LCD, only 8 user-defined characters can be stored in CGRAM. And for 5×10 pixel based LCD only 4 user-defined characters can be stored.

After the library is included and the LCD object is created, custom character arrays are defined. The array consists of 8 bytes, each byte representing a row of a 5×8 LED matrix. In this sketch, eight custom characters have been created.

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The utility company charges you for the power you use based on the monthly readings of an electric meter that measures the current passing through the service entrance into your electrical service panel. The meter can either be a mechanical analog meter that is read monthly by a utility service person who visits your home or a newer digital meter that may send information via internet or radio signals.

Whatever form of meter you have, it measures the amount of electricity you use in watts, or more specifically, kilowatt hours. A watt is the product of the voltage and amperage (or current) in an electrical circuit: 1 volt x 1 amp = 1 watt. But this formula represents merely the measure of the electrical potential. To measure actual energy usage, you have to add an element of time. Therefore, electrical usage is a measurement of watts used over a period of time. Your electric meter records electricity usage in kilowatt-hours. In simple terms, 1 kilowatt hour = 1,000 watt-hours. For example, if you turn on a 100-watt light bulb for 10 hours, the energy usage is calculated as 100 watts x 10 = 1,000 watts (or 1 kilowatt hour).

The traditional analog meter is a mechanical device found near the service entrance where the utility"s service wires enter a building—either from overhead wires that enter theweatherhead and drop down through the conduit to the meter, or from underground service wires. The meter is usually encased in a glass housing and has a metal disc inside that rotates as the circuits inside the building draws current from the service wires. If you observe the disc, you can see that it moves slower at times of low electrical consumption, such as at night, and faster during peak usage times.

To record your electricity usage you must have a starting point and an end point. If you want to know how much electricity you use over a month, take an initial reading on the first day of the month, then take a second reading at the end of the last day of the month. The difference between the two readings will tell you how many kilowatt-hours you used that month.

A newer type of digital electric meter has AC (alternating current) sensors that detect voltage and amperage in the incoming wires. This type of digital meter is better at picking up all of the power in a circuit, making it slightly more accurate than mechanical or ADC types.

Where a home or business is equipped with solar panels or wind-generator turbines that are sending power back into the energy grid, the digital meter will record the net usage. The meter keeps track of the direction of energy flow, which can be read on the face of the meter as "delivered" or "received."

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