Unity – Spot/point realtime lighting not working

Spot/point realtime lights are not working. No light at all.

  • I have an urp scene with a realtime directional light that works perfectly, intensity, shadows, etc.
  • Spot/point realtime lights dont work.
  • When set to mixed/baked these lights are actually baked.
  • Realtime doesnt do light over static/non-static gameobjects.
  • I baked the scene previously but now I cleared the scene from the lightmaps, although the realtime lights should work over non-baked objects for sure.
  • When only one light in all the scene active still not working (even the directional is off), so I guess is not the limit.
  • All of this is in the editor.
  • Created a different scene in the same project and still not work.
  • Same scene with same materials, gameobjects, etc in a different project work.

It seems like it is something from the project.

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Learn About LED Lighting

Learn About LED Lighting
What are LEDs and how do they work?
LED stands for light emitting diode. LED lighting products produce light up to 90% more efficiently than incandescent light bulbs. How do they work? An electrical current passes through a microchip, which illuminates the tiny light sources we call LEDs and the result is visible light. To prevent performance issues, the heat LEDs produce is absorbed into a heat sink.
Lifetime of LED Lighting Products
The useful life of LED lighting products is defined differently than that of other light sources, such as incandescent or compact fluorescent lighting (CFL). LEDs typically do not “burn out” or fail. Instead, they experience ‘lumen depreciation’, wherein the brightness of the LED dims slowly over time. Unlike incandescent bulbs, LED “lifetime” is established on a prediction of when the light output decreases by 30 percent.
LEDs are incorporated into bulbs and fixtures for general lighting applications. Small in size, LEDs provide unique design opportunities. Some LED bulb solutions may physically resemble familiar light bulbs and better match the appearance of traditional light bulbs. Some outdoor LED light fixtures may have LEDs built in as a permanent light source. There are also hybrid approaches where a non-traditional “bulb” or replaceable light source format is used and specially designed for a unique fixture. LEDs offer a tremendous opportunity for innovation in lighting form factors and fit a wider breadth of applications than traditional lighting technologies.
LEDs and Heat
LEDs use heat sinks to absorb the heat produced by the LED and dissipate it into the surrounding environment. This keeps LEDs from overheating and burning out. Thermal management is generally the single most important factor in the successful performance of an LED over its lifetime. The higher the temperature at which the LEDs are operated, the more quickly the light will degrade, and the shorter the useful life will be.
LED products use a variety of unique heat sink designs and configurations to manage heat. Today, advancements in materials have allowed manufacturers to design LED bulbs that match the shapes and sizes of traditional incandescent bulbs. Regardless of the heat sink design, all LED products that have earned the ENERGY STAR have been tested to ensure that they properly manage the heat so that the light output is properly maintained through the end of its rated life.
LED lighting differs from incandescent and fluorescent in several ways. When designed well, LED lighting is more efficient, versatile, and lasts longer.
LEDs are “directional” light sources, which means they emit light in a specific direction, unlike incandescent and CFL, which emit light and heat in all directions. That means LEDs are able to use light and energy more efficiently in a multitude of applications. However, it also means that sophisticated engineering is needed to produce an LED bulb that shines light in every direction.
Common LED colors include amber, red, green, and blue. To produce white light, different color LEDs are combined or covered with a phosphor material that converts the color of the light to a familiar “white” light used in homes. Phosphor is a yellowish material that covers some LEDs. Colored LEDs are widely used as signal lights and indicator lights, like the power button on a computer.
In a CFL, an electric current flows between electrodes at each end of a tube containing gases. This reaction produces ultraviolet (UV) light and heat. The UV light is transformed into visible light when it strikes a phosphor coating on the inside of the bulb. Learn more about CFLs.
Incandescent bulbs produce light using electricity to heat a metal filament until it becomes “white” hot or is said to incandesce. As a result, incandescent bulbs release 90% of their energy as heat.
Why should I choose ENERGY STAR certified LED lighting products?
There are more lighting options available today than ever before. Despite that, ENERGY STAR is still the simple choice to save on your utility bills.
LED bulbs that have earned the ENERGY STAR are subject to very specific requirements designed to replicate the experience you are used to with a standard bulb—so they can be used for a wide variety of applications. As the graphic on the right demonstrates, a general purpose LED bulb that does not qualify for the ENERGY STAR may not distribute light everywhere and could prove to be a disappointment if used in a table lamp.
The potential effects of LED street light on health and the environment have been a hot topic of discussion over the last year. As this conversation has evolved, so too have many misperceptions and mischaracterizations of the facts on LEDs. We’ve assembled an array of helpful resources on the topic to help shed some light  and are clarify some of the most common myths on LED streetlights.
LED streetlights are no more harmful to humans and animals than other kinds of streetlights. The concern is not the type of light source, but the amount of emitted light that falls in the short-wavelength, often referred to as the “blue” part of the spectrum. And, unlike other types of streetlights, LED streetlights actually offer the potential to control the amount of short-wavelength light that they emit.On the contrary, short-wavelength light is a fundamental component of the natural world. It’s present in sunlight and has been shown to play an important role in a number of physiological processes, such as affecting circadian rhythm (our 24-hour “biological clock” that controls sleep/wake cycles). The concern is that too much nighttime exposure to short-wavelength light may disrupt sleep patterns and have other undesirable effects.It’s true that early LED lighting products tended to have greater levels of short-wavelength content because the technology was still in its initial stages of development. Tremendous advances since then, however, mean that today’s LEDs can be designed to emit as little, or as much, short-wavelength light as desired, without excessive drop-off in efficiency or other aspects of performance. LEDs also offer much greater control over where the light falls. This means they can often meet the same illumination requirements as conventional streetlights while emitting much less light – thus reducing even further any short-wavelength content.
Floodlighting has become an important part of security for homes and businesses alike. Whether connected to a motion detector or for use to light a garden at night, flood lighting has become an integral part of security in today’s society.
Homeowners and businesses have enough to deal with in these harsh economic times than needing to worry about changing floodlights. That’s why LED Flood Light offer the client not only an exceptional dispersion of light but also a bounty of advantages, which are only available when you use LED Floodlights.
One of the best advantages of using LED Floodlights is the life expectancy; they last for thirty times longer than standard halogen floodlights. This reveals a variety of advantages: you will have more free space as you would not need to stock up on replacement halogen bulbs. Also the main power involved in swapping out defective halogen bulbs can be time consuming and expensive, especially if running a business which requires the use of floodlighting. Thus purchasing LED Floodlights works to be extremely cost effective for the client. LED Floodlights repay your investment with longer life and an exceptional reduction in electricity costs.
With rising utility prices everyone is looking to save money. Through switching to an LED Floodlights customers will see a fall in their electricity consumption and in turn bills. The LED Floodlight will consume a significantly reduced number of watts compared to a halogen Floodlight, providing the client with an exceptional visual performance as well as low cost electricity bills. LED Floodlights feature economical illumination technology. This technology is also known as Light Emitting Diodes (LED light bulbs); this allows you to have exceptional brightness with a low power consumption.
LED Floodlights have a higher lumen output than standard Floodlights. One LED Floodlight can have the same effect as two or even three standard Floodlights. This is a staggering statistic and it means that with the longer life expectancy and the exceptional brightness less room would be needed for storing your existing halogen equivalent floodlights. It also now means that security for your home and business is now affordable and is most importantly cost effective.
It is important to note when looking to install floodlights for outside use that they are IP65 rated. This means that they have been designed and tested to withstand weather conditions and are safe for outside use. This special rating of IP65 is not to be overlooked as it is essential to the performance of the light when used outside.
Portable floodlights are also available on the market and our ideal for workers at night. By incorporating a battery to floodlights workers can experience high quality LED lighting by only consuming a fraction of the electricity of an ordinary halogen floodlight. This has many advantages such as safety for the workers as a clear bright illumination. Also these would need to be IP65 rated also as even in the most testing weather conditions the clear, crisp light will continue to emit.
This article has shown the huge benefits which LED Floodlights can give compared to their halogen equivalents. So for a more cost effective approach to lighting with better lighting results, make sure you choose LED technology when you purchase your next Floodlights.

In the world of lighting, LED high bay light is a fixture that you would find in a warehouse, a factory, a gymnasium, or any large open area with relatively high ceilings. Many existing high bay lighting and low bay lighting applications utilize high intensity discharge (HID) lamps such as metal halide or high pressure sodium lamps.
Despite their widespread use, HID lamps utilize antiquated technology that costs building managers both directly and indirectly. Specifically, using HID lamps will result in: higher than necessary energy costs, frequent maintenance costs, and poor lighting performance. These issues can all be addressed by converting your existing lighting to LED.
Energy Savings
Energy savings is a primary driver behind why you should evaluate LED lighting for your building or facility. Common wattages for LED high bay fixtures can range from 95 watts to 495 watts. If we compare this wattage to a typical HID high bay fixture that same range is 175 watts to 1000 watts.
Consequently, by switching to LED lighting you are immediately reducing your energy consumption by 40%-60%. To put this in dollars, you would be saving $300 per fixture per year in electricity costs if you made the switch to LED lighting. Depending on the size of your facility this can really affect the operational balance sheet.
Maintenance Cost Reduction
By converting to LEDs you will also see a dramatic reduction in the maintenance of your high bay light fixtures. This is due to the way LEDs generate light, and the way they progress through their functional life. Instead of ceasing to function properly once a fuel source is significantly reduced, LED generated light output degrades very slowly over time. As a result, the functional life of an LED product can be significantly longer than that of a HID Lamp, therefore drastically reducing the maintenance load required.
For example, by converting conventional 400w HID high bay lighting to LED, a typical building with industrial light fixtures can save up to $5,341 over the course of three years in maintenance costs alone.
The outdoor lighting industry, as with so many other application-oriented industries, assumes that the power source is infinite and always available. This is a tribute to the reliability of the electric grid – at least in developed-world nations. It has certainly made life simpler for the lamp/lighting designers who, for the most part, are able to divorce the lamp characteristics from the energy source. The developed world is starting to learn that the power source is far from infinite.
Some companies are not waiting to see the bottom of the barrel, and are exploring alternatives that range from replacement power sources to energy demand reduction. A number of companies are developing technologies that achieve both: SolarOne Solutions’ work in solar-powered solid-state lighting under the SOLED? brand name is an example of this.
Solar-powered lighting
Solar electric lighting systems do in fact connect to a truly “infinite” power source – the sun. However, as we all know, this source is intermittent. In the case of solar outdoor lighting, the power source is inversely related to the load (the lights turn on when the sun goes down). This relationship leads to an important conclusion; the system must rely on energy storage (e.g. batteries), unless it remains connected to grid.
Now in order for a solar lighting system to perform reliably, the solar panel and battery must be sized for the period of longest nights, shortest days and cloudiest weather, all of which occur at the same time each year (see figure 2). Historically, the solar industry has addressed this worst-case scenario by seeking out the most efficient lumen per watt DC lamps and over-sizing the system for the rest of the year. That translated to DC fluorescent bulbs, bigger solar panels, more batteries, higher costs and less-than-appealing appearance.
This approach confined the market for solar LED light to areas closer to the equator with highest average levels of solar irradiation and temperatures that did not affect the performance and lifetime of the DC fluorescent bulbs. It also left the markets in the higher latitudes, typically with higher per capita wealth levels and greater lighting needs rather under-served.

Three Benefits of LED High Bay Lighting

In the world of lighting, the high bay is a fixture that you would find in a warehouse, a factory, a gymnasium, or any large open area with relatively high ceilings. Many existing high bay lighting and low bay lighting applications utilize high intensity discharge (HID) lamps such as metal halide or high pressure sodium lamps.
Despite their widespread use, HID lamps utilize antiquated technology that costs building managers both directly and indirectly. Specifically, using HID lamps will result in: higher than necessary energy costs, frequent maintenance costs, and poor lighting performance. These issues can all be addressed by converting your existing lighting to LED.
Energy Savings
Energy savings is a primary driver behind why you should evaluate LED lighting for your building or facility. Common wattages for LED high bay lights can range from 95 watts to 495 watts. If we compare this wattage to a typical HID high bay fixture that same range is 175 watts to 1000 watts.
Consequently, by switching to LED lighting you are immediately reducing your energy consumption by 40%-60%. To put this in dollars, you would be saving $300 per fixture per year in electricity costs if you made the switch to LED lighting. Depending on the size of your facility this can really affect the operational balance sheet.
Maintenance Cost Reduction
By converting to LEDs you will also see a dramatic reduction in the maintenance of your T-Line linear highbay light fixtures. This is due to the way LEDs generate light, and the way they progress through their functional life. Instead of ceasing to function properly once a fuel source is significantly reduced, LED generated light output degrades very slowly over time. As a result, the functional life of an LED product can be significantly longer than that of a HID Lamp, therefore drastically reducing the maintenance load required.
For example, by converting conventional 400w HID T-Line modular linear highbay lighting to LED, a typical building with industrial light fixtures can save up to $5,341 over the course of three years in maintenance costs alone.
Lighting Performance
Finally, lighting performance is a critical factor in evaluating the move to a different type of lighting. From a performance standpoint,  matepro ufo highbay lights are a head-and-shoulders above their HID counterparts.
LEDs utilize a multi-point design, meaning they distribute light on the intended surface evenly. Therefore, light levels across a given surface will vary less between fixture mounting locations. In addition to the even distribution of light, LEDs are available in a range of CCTs (correlated color temperatures) and as a result provide a range of options to increase the visual perception of “brightness.”
In contrast, HID fixtures produce a “bright spot” directly underneath the fixture with light levels decreasing drastically as the distance between fixtures increases.
Conclusion
In conclusion, we can see that there are three primary drivers to consider installing an LED retrofit in your facility. By converting you will see immediate energy savings, decreased frequency of lighting maintenance, and an uptick in overall lighting performance. 

LED Tri-proof light is a special light made of special protective materials, waterproof, dust-proof and anti-corrosion . Tri proof means “Waterproof” “Dust-proof” “Anti-corrosion”.
Special anti-oxidation and anti-corrosion material and Silica Gel sealing ring are used to realize the protection requirements of lights. According to the actual working environment of the Tri-proof light, the surface of the lamp protection box is treated with nano-spraying plastic damp-proof and anticorrosive treatment, which prevents the entry of dust and moisture.

Because fluorescent fixtures are often mounted into ceilings and connected directly to mains electricity, they are relatively expensive and difficult to replace completely. As a result, it oftentimes makes the most economical sense to simply use the same fluorescent fixture, but replace the fluorescent tube with an LED tubar light. Therefore, it is important to understand the types of fluorescent tubes that were developed, so that the correct LED tube light can be retrofitted in place.

If you want LED panel lights for home or office, there will be different shapes and sizes available for you. Most commonly, you will have to choose between a square or round LED panel light. Although some people can make a decision easily, others will probably be pickier.
In general, you should choose a shape that looks beautiful in the context of use. However, when looking at the squares and circles of LED panel lights, you will encounter some technical differences. These differences may affect the functionality of the panel under certain settings.

Everything You Need To Know About High Bay Lighting

What is high bay lighting?
High bay lighting is the go-to solution in many workplaces for achieving bright and uniform illumination across large, high-ceilinged indoor spaces. It’s most often found in warehouses, department stores, manufacturing areas and sports halls.
But what is LED high bay light exactly, and how does it differ from other high-intensity lighting solutions?
Rather than any single fixture style, the term ‘high bay lighting’ refers to the positioning of the luminaires, and as such it covers a broad and flexible range of lamp types and fittings. As a rule of thumb, MatePro UFO highbay light is usually the best option for any indoor setting where the floor-to-ceiling height measures 8m (roughly 25’) or taller.
For less lofty spaces, low bays (or even a series of appropriately arranged floodlights) may be enough to get the job done. But, where indoor work areas span a great deal of vertical and horizontal space, the lighting solution needs to be both powerful and flexible.
In this guide, we’ll tell you everything you need to know about the various types of high bay lighting configurations available, and the sorts of environments they’re best suited to.

What’s the difference between high bay and low bay lighting?
Low bay lighting setups, as the name suggests, are more commonly used where there’s less vertical distance for the light to cover. In these situations, lower mounting positions will often allow for a shallower lighting angle, making it easier to illuminate vertical surfaces or to create specific lighting effects in smaller zones.
High bays are most often found in warehouses, gantries, above a large shop or conference floors, at sports facilities, in expansive factory or workshop environments…anywhere that needs uniform, brilliant illumination to maximise visibility and light quality over a wide area.
Apart from the different mounting altitudes, another key contrast between high bay and low bay light setups is that high bays tend to rely on more careful consideration of layout, fittings and components.
T-line linear highbay light must be chosen and positioned to ensure the light they cast is strong, uniform, and equally effective at hitting both vertical and horizontal surfaces from a wider angle.
To achieve this, high bay lighting tends to demand the more exacting placement of lamps and reflectors. When configured properly, high bay setups can achieve superb quality and intensity of light across the entirety of a wide, tall space.

LED stands for light-emitting diode which is a light conductor that emits white light when a current flows through it. LED panels are commonly used in video and photography as a directional light source. LED’s are known for their powerful white light, low energy consumption, and durability.
LED panel lights have become a popular option for creators in all different industries. Due to their practical and versatile design, there has been a surge in market demand for light panels. However, not all lights are created equal.

The LED Bulkheads’ cool white light is an attractive alternative to the harsh orange output of SOX lamps. With efficiency comparable to that of fluorescent lighting, the LED Bulkhead is smaller than other lamps of the same output. Its instant start, with no warming-up period is a significant advantage for event triggered security lighting. The LED Bulkhead, rated at up to 60W, is the most powerful of a range that starts from 20W. With supply inputs ranging from 23.5W to 70.6W, this range has an electrical efficiency of 90%. The LEDs typically yield 100 lumens per watt and the light has a colour temperature of 5000 to 7500 K.

LED Tri-proof Lights are durable and eco-friendly alternative lighting systems to traditional fluorescent LED tube lights. LED Tri-proof Lights are designed to withstand severe environments and will help you reduce your energy consumption by up to 80%.
LED Tri-proof Lights are specifically built to withstand conditions susceptible to water, dust and corrosion impacts. Our Lighting tri-proof Lights are Incredibly durable and long lasting, they are highly resistant to heavy impacts.

Why should you use linear lighting?

For your next project, consider including LED linear lighting. It provides enough light to illuminate any living space and is also great for improving interior design, making your room more attractive.

LED linear lights are the future of commercial and residential lighting. The explosive growth of the global LED lighting industry is proof of this. Here are some other reasons to switch to linear lighting Linear LED bulbs :

USES If you work from home, you’ll benefit from 3 linear lighting technology LED bulbs. It makes your work setup more comfortable, while maintaining a modern aesthetic.

It brightens up the dark corners of your home and makes it more pleasant to live in.

Project customization
LED Tri-Proof Lamp Linear Lights offer a wide variety of color temperatures. You can use them to highlight the different elements of your interior design and create a mood.

You will get a better view with these lights. The market offers various solutions, so it is not difficult to find the right one. Linear lighting Linear LED System is also excellent for more customized installations.

With LED strips or aluminum profiles, you can make unique patterns and designs. This is what makes the entire space look unique. Try some linear lighting designs that scream 2021 to improve the look of your room this year.

efficiency
A major benefit of LED Bulbs on High Ceilings linear lighting is the High level of energy efficiency. You’ll get the same amount of light output as you get from fluorescent lighting with linear lighting, however, you’ll use much less energy and spend less.

You can count on LED lights to last longer than fluorescent or incandescent lights. Investing in it gives you more value for money. Buy from experienced and reliable manufacturers to get the most out of your LED linear lights.

Linear LED vs. Linear Fluorescent: Pros and Cons
Most reputable lighting industry manufacturers use LED tubes linear lamps. The range is versatile, from value line to high production. But there are advantages to linear fluorescent lighting as well. Here are the breakdowns between the pros and cons of each type of lighting:

Linear LED Pros
As mentioned earlier, LED lighting is more energy efficient than other lighting. The lamp lasts about 50,000 hours, and loses 30% of its output after a decade. Some have a shorter shelf life, but in general they all last longer than their fluorescent counterparts.

LED Panel Bulbs linear lighting does not use any mercury, making it an environmentally friendly option.

Most LED manufacturers offer strong product warranties, giving you peace of mind.

Linear LED Wall Mounted Bulbs downsides
The main disadvantage of using LED linear lights is the price. However, the cost is more reasonable now than in the past.

LED linear lights have a myriad of options at different prices, so do some research to avoid feeling overwhelmed.

Linear fluorescent pros
If you are looking for a less expensive product, linear fluorescent is best. Its initial cost is lower than its LED tubes counterpart. It is also easy to install and can last more than 20,000 hours. Google Offers

Some linear flutes (combined with right-hand ballast) can last longer than that. In some cases, it can last more than 90,000 hours.

Linear fluorescent cons
Mercury is the primary disadvantage of using these products. It is not environmentally friendly and also provides lower energy efficiency.

Technological improvements mean that a less toxic metal is used, however, without a certain amount it will not work.

Use linear lights in your project
If you’re considering using linear lights, but don’t know where to start, we can help you connect with lighting professionals to help put you on the right track to creating a high-impact lighting design.

How many times do you roll damage for Chain Lighting?

Chain Lightning has the following description:

You create a bolt of lightning that arcs toward a target of your choice that you can see within range. Three bolts then leap from that target to as many as three other targets, each of which must be within 30 feet of the first target.

The rules for damage rolls state:

If a spell or other effect deals damage to more than one target at the same time, roll the damage once for all of them. For example, when a wizard casts fireball or a cleric casts flame strike, the spell’s damage is rolled once for all creatures caught in the blast.

Assuming four available targets which of the following is correct?

  • Roll once for damage for all of the targets
  • Roll twice for damage, once for the first target, and once for the three subsidiary targets.
  • Roll damage separately for each targets

What happens to a Chain lighting with invalid primary target and valid secondary targets?

This question asks what happens when a single-target spell has an invalid target. (A target that is not legitimately permissible, not a target that is weak from illness or injury).

The answer appears to be: that depends on whether one wishes to implement an older Sage Advice segment of a Dragon Talk podcast, or the more recent but optional written rules in Xanathar’s Guide to Everything.

Assume for this question that I prefer XGtE.

The rule for resolving invalid spell targets states (XGtE 85-86):

If you cast a spell on someone or something that can’t be affected by the spell, nothing happens to that target, but if you used a spell slot to cast the spell, the slot is still expended.

Now consider the chain lightning spell, in which

You create a bolt of lightning that arcs toward a target of your choice that you can see within range. Three bolts then leap from that target to as many as three other targets, each of which must be within 30 feet of the first target. A target can be a creature or an object and can be targeted by only one of the bolts.

Suppose my primary target for the spell is invalid, because it is not a creature or an object. If an example must be given, suppose it is an illusion. However, each of the three secondary targets of the spell are valid, being either creatures or objects.

Do I spend the spell slot with nothing happening at all, or does the slot get spent, the chain lightning impact the illusion but do nothing to it and then leap to the three valid targets with the full effects given in the spell description?

Note: I am assuming that an illusion is not an object, based largely on my interpretation that an illusion is not an "item" and on the text of the 14th-level School of Illusion wizard feature, Illusory Reality. I am open to frame challenges that demonstrate that illusions are, in fact, objects, but such answers will be better if they then either provide a more appropriate example of something that is not a creature or an object, or demonstrate that the question is moot since everything is at least either a creature or an object.

How do I help player’s frustrated by darkness in Roll20’s dynamic lighting?

I recently moved my pathfinder 1e campaign online. After some experimenting I decided that the Roll20 dynamic lighting system was worth the investment. However during our first session using the system they found it cool but frustrating.

Most of the player’s frustration came from an issue of not being able to see what was next to them. The situation was as follows.

  • I am using Dynamics Lighting with Advanced Fog of War
  • The party were trying to sneak up on a group in the dark, hence extinguished their lights.
  • One character has darkvision the other 3 members have low-light vision.
  • They decided to hold hands and move in a line following the character that could see.

This is where they encountered an issue and some frustration. Due to the way darkness is handled with the dynamic lighting tool there was no way for the players to follow the movements of the character with darkvision.

What they wanted:

L L X D . . . .      . L L X D . . .      . . L L X . . .      . . . L L . . . . . . . . . . .  =>  . . . . . . . .  =>  . . . . D . . .  =>  . . . . X . . . . . . . . . . .      . . . . . . . .      . . . . . . . .      . . . . D . . .   X = player token (low light vision), L = Ally with Low light vision, D = Ally with Darkvision 

What they saw:

. . X . . . . .      . . . X . . . .      . . . . X . . .      . . . . . X . . . . . . . . . .  =>  . . . . . . . .  =>  . . . . . . . .  =>  . . . . . . . . . . . . . . . .      . . . . . . . .      . . . . . . . .      . . . . . . . .  

As soon as the players entered the darkness they could no longer see the characters immediately next to them and therefore couldn’t follow their movements in a line style. This led to frustration, and the player’s without darkvision commenting “I can’t do anything since I can’t see”.

While not being able to see their opponents and having to carefully manage their light was the goal of using this system. Frustrating my players and making them not enjoy the game is an unacceptable consequence.

How can I configure the dynamic lighting system and player tokens to enable them to work cooperatively in darkness?

Goals:

  • Force players to think tactically about use of light (they have indicated they want this)
  • Use Advanced Fog of War for automated map reveal (reduce load on GM)
  • Allow players to move in the line formation without requiring the GM to move their pieces for them

Is lighting a Drift Globe a bonus action?

I’m in a combat…running towards an enemy. I use the first activating word (light vs Daylight)…is it a bonus action? Am I still able to attack when I reach my enemy?

For reference, the Drift Globe item states:

This small sphere of thick glass weighs 1 pound. If you are within 60 feet of it, you can speak its command word and cause it to emanate the light or daylight spell. Once used, the daylight effect can’t be used again until the next dawn.

You can speak another command word as an action to make the illuminated globe rise into the air and float no more than 5 feet off the ground […]