Smart Stairway WS281 Stair Light Sense Ladder Controller User Manual

June 6, 2024
Smart Stairway

WS281 Stair Light Sense Ladder Controller

Controller for automa c ligh ng of stairs with colored LED address strip RGB WS281 *.
SmartStairway SS-WS28xx-Wi-Fi v.1.7
User manual
www.shop.xopc.net.ua +380 999 500 300
e-mail: sale@xopc.net.ua

Please read the instructions carefully before starting work
1. General description. The SmartStairway SS-WS28xx-Wi-Fi controller is designed for automatic staircase lighting using an addressable multicolor LED strip such as WS2811, WS2812, etc. with 5V or 12V DC power supply. You can configure the system to use from 1 to 32 steps. The number of pixels per step can vary and have a value from 1 to 255 pcs. Note that for Ws2812 LED strips, 1 pixel is equal to 1 LED, and for Ws2811 strips, 1 pixel is equal to 3 LEDs. The lighting is activated by pyroelectric sensors, ultrasonic sensors, non- latching buttons (such as a doorbell button) or any sensors and relays that emit a high TTL signal (+3.3 … + 4V) when motion is detected. The controller is configured using the WEB interface. You can connect to the controller using the built-in Wi-Fi hotspot. The controller can also connect to your local Wi- Fi network and operate in the network WEB server mode. The controller allows you to select and configure any of the preset static, dynamic or animated staircase lighting and standby modes. Adjust colors, effects, speed, delay and more. The system also allows you to activate the light sensor and turn off the light when the light level is higher than the set. You can also activate adaptive brightness mode to protect your eyes in the dark. You can adjust the brightness of the staircase and dark standby lighting by a predetermined percentage.

2. Specifications.

Supply voltage: Power consumption in standby mode: Maximum power consumption with Wi-Fi connection: Average consumption in the operating mode of the backlight on: Built-in power stabilizer voltage and power:

DC5 / 12V no more than 3W. no more than 10W. no more than 7 W. DC5V, 0.5A (protected by self-healing fuse)

Compatible sensors:
Compatible LED strips: Number of steps: Number of LED pixels per step: Maximum total number of pixels:

Number of pixels 1…256 pcs.
257…512 pcs. 512…1000 pcs. 1001… 1256 pcs. 1257… 1512 pcs.
bl.1

Frame rate >60 FPS 60 FPS 40 FPS 20 FPS <10 FPS

Pyroelectric HC-SR501, HC-SR505 Ultrasonic HC-SR04, microwave rcwl-0516 and others similar in terms of power and level TTL signal. DC5 / 12V: WS2812, Ws2811 and their analogues. from 1 to 32 pcs. from 1 to 255 pcs. no more than 1500 pcs. Depending on the number of pixels, the frequency decreases FPS. The more pixels, the less frame rate. It is recommended not to exceed quantity 1000 pcs. Optimal work is possible when quantity less than 650 pixels.If necessary to provide a large number of LEDs, it is better to choose a tape WS2811 DC12V, it will increase speed, and reduce the current.
3. Delivery set.

– SmartStairway SS-WS28xx-Wi-Fi controller: – Connector with wires 20 cm long for connec on
peripheral equipment – Photoresistor (DC5V): – User manual:

– 1 pc.
– 1 pc. – 1 pc. – 1 pc.

  • Addi onal equipment. In addi on, the package may include pyroelectric or ultrasonic sensors in any combina on, depending on the selected configura on.

4. The main structural elements

3

4

5

1

2

Up

Down

Status

SmartStairway SS-WS28xx-Wi-Fi Addressable LED Staircase Controller

Button

Button

1

-V (Ground)

1

(GND) –
Input DC 5/12V Indicator colors Output

2 +5V (max 0.5A)

2

3 Photo resistor 5V

3

6

+ – Power on

4 Sensor Up (Trigger) 3.3V

4

5 Sensor Up (Echo) 3.3V

5

6 Sensor Down (Trigger)3.3V

6

– Access Point on

7 Sensor Down (Echo)3.3V

7

– DHCP Network WEB Server ON – Static IP Network WEB Server ON

8 Up button 5V

8

– DOWN Sensor Detected

9 Down button 5V

9

– UP Sensor Detected – Day mode. The lights are turned off.
Access point name: SmartStairway

10 Smart LED Data pin

10

http://xopc.net.ua

+380 999 500 300

Password: smart2812

E-Mail: sale@xopc.net.ua

URL: www.smartstairway.com (only Access point Wi-Fi connect)

17 21

18

19

20

7 8

6

9

10
11 12

13

14
15 16

The main elements
1- Terminal for connection “-” from the power supply of a direct current of 5 / 12B stabilized on tension (GROUND) 2- Terminal for connection “+” from the power supply of a direct current of 5 / 12B stabilized on tension 3- Touch button “Top» 4- Touch button “Down» 5 – LED system status indicator (see status colors in the table) 6 – Decorative cover of terminal compartments. Pins for connecting the output connector: 7 – PIN1 -V (GROUND) 8 – PIN2 + 5V output is voltage stabilized with 0.5A overload protection 9 – PIN3 analog input for connecting a light sensor photoresistor (max. 5V) 10 – PIN4 for connection of the top sensor. PIR Sensor – Data, Ultrasonic sensor – Triger 11 – PIN5 for ECHO connection when using the upper ultrasonic sensor. If a PIR sensor is used, this PIN is not used. 12 – PIN6 for connection of the lower sensor. PIR Sensor – Data, Ultrasonic sensor – Triger 13 – PIN7 for ECHO connection when using the lower ultrasonic sensor. If a PIR sensor is used, this PIN is not used. 14 – PIN8 for connection of the top button without fixing for compulsory switching on of light (+ 5B). 15 – PIN9 for connection of the lower button without fixing for compulsory switching on of light (+ 5B). 16 – PIN10 for connection of the signal cable of the address LED strip Data IN. Other items: 17 – Password to connect to the controller in Wi-Fi access point mode 18 – Wi-Fi access point name 19 – URL of the web server page in case of connection to the controller in the access point mode. 20 – Wire connector for connecting peripheral equipment. 21 – Photoresistor.

Color -Red – Yellow – Pink – Aqua – Blue – Green -White

LED indicator status table
Value Power is on. No other connections or actions. Power only. The controller is in Wi-Fi access point mode The controller has joined the local network in DHCP mode. The controller has joined the local network in the static IP address mode. The lower sensor has tripped. The upper sensor has tripped The controller is locked and is in “Day” mode according to the photo sensor.

Table.3

  • The color indicator flashes when connected to the network. After successful connection it glows permanent color. If you cannot connect, the system switches to Wi-Fi hotspot mode and the indicator turns yellow.

5. Selection and calculation of LED strips, power supplies and wires.

When choosing LED strips, special attention should be paid to the type of LED strip, its supply voltage, and the number of LEDs. One SMD5050 LED consumes a current of 60 mA in white mode of maximum brightness. See the table below.
Specifications RGB WS281x LED :

Color

Wavelength (nm) intensity(mcd)

Current ()

Voltage (V)

Red Green Blue
ble.2

620-630

550-700

20

515-530

1100-1400

20

465-475

200-400

20

1.8-2.2 3.0-3.2 3.2-3.4

Thus, if your stairs have, for example, 21 steps 1 meter wide, and you choose the LED strip WS2812 60LED / m, the total number of LEDs will be 1260 pieces, and the current will be 75600mA or 75.6A. It is enough to look at the battery of your car and the cross-sectional area of the wires to which it is connected to understand that for a current of 60A with a wire length of not more than 5m you will need a copper wire with a cross-sectional area of more than 70mm.sq. (diameter about 10 mm). Accordingly, if the length of the wire is more than 5m, you will need wires of much larger diameter. That is, it is obviously very difficult, expensive and unreasonable. Failure to comply with the requirements for the cross-sectional area of the cable will lead to overheating of the wires and does not exclude the possibility of fire. In addition, for 1260 pixels, the frame rate will be too low and no more than 10 frames per second. That is, most animation effects will be very slow and abrupt. It will also be very difficult for you to find a 5V DC source with a current of 100A. Therefore for such ladders it is expedient to choose the LED strip WS2811 30 LED / M DC12V. With this choice, the number of LEDs will be 630 pieces, and the number of pixels 210. The current for the white color of maximum brightness will be 12.6A. According to the tables below, a cable with a cross- sectional area of 2.5 mm is required for 5 m long wires. The frame rate at this number of pixels will be more than 60 frames per second. All effects will be displayed quickly and smoothly. Based on the number of steps and their width, calculate the required number of LED strips, and select its type and number of LEDs per 1 meter so as to maintain the desired power with the number of pixels within the recommended speed limits.

Calculate the total length of the LED strip based on the number and width of your steps. Using the data in Table 4, calculate the total power and number of pixels on all stairs. According to the formula

Parameters of the main types of LED strips

Psupply=(Pled*Lled)+15% :
P – supply required rated power supply, W. Pled – power 1 m.p. LED strip, W/m (See table)
Lled – the total length of the LED strip for all stairs, m.

calculate the required rated power of the

power supply. Select and purchase a constant

voltage constant current source that matches

Table.4

the supply voltage of your LED strip, with a

power equal to or greater than the rated power. Choose high-quality power supplies, as this

affects the quality of work, stability, as well as the absence of artifacts, flashes and flickering

during system operation.

When choosing LED strips, consider the following guidelines:

– With the number of pixels (not LEDs) up to 600, the system will ensure high speed and

smoothness of all effects.

– from 600 to 1000 pixels the frame rate will be lower, some animation effects will not work very

smoothly.

– 1000 to 1500 frames will be low, animation effects will not look good. Only static effects and

postanimation are possible.

Therefore, it is recommended to use a WS2811 LED strip, since there are 3 LEDs per

pixel, which will reduce the number of pixels by three times relative to the number of LEDs.

6. Installation and connection.
LED address strip, installation and connection.

Up Button

Down Button

Status

SmartStairway SS-WS28xx-Wi-Fi Addressable LED Staircase Controller

1

-V (Ground)

1

2 +5V (max 0.5A)

2

3 Photo resistor 5V

3

4 Sensor Up (Trigger) 3.3V

4

+ – Power on

5 Sensor Up (Echo) 3.3V

5

6 Sensor Down (Trigger)3.3V

6

– Access Point on

7 Sensor Down (Echo)3.3V

7

– DHCP Network WEB Server ON – Static IP Network WEB Server ON

8 Up button 5V

8

– DOWN Sensor Detected

9 Down button 5V

9

– UP Sensor Detected – Day mode. The lights are turned off.
Access point name: SmartStairway

10 Smart LED Data pin

10

http://xopc.net.ua

+380 999 500 300

Password: smart2812

E-Mail: sale@xopc.net.ua

URL: www.smartstairway.com (only Access point Wi-Fi connect)

DLirEeDctisotnrip

Select a cable of the appropriate cross-section (caliber) and lay it according to the figure. It is best to run a common “+” and “-” busbar on one side of the staircase, and then connect the corresponding wires from the LED strip of each step. Pay particular attention to the cable for connecting the data wire to the first stage. To do this, use a coaxial cable. Connect the center wire to the controller’s Smart LED data pin on one side and to the DI (Data in) strip on the other side. Connect the braid to the “-” of the power supply on both sides.

(GND) –
Input DC 5/12V Indicator colors Output

LEDDirsetrcitipon

Pic.2

Coaxial cable. Attach the central core to the data pin. Connect the braid to “-” on both sides of the cable. Try to keep the length of the cable from the controller to the LED strip as short as possible and not more than 2 m.

Mount the LED strip for each step.

1. Using a soldering iron,

solder the corresponding

wires to the LED strip for

each step.

2. Rinse flux residues at

soldering points thoroughly

+V DI GND

+V DI GND

with 96% alcohol.

3. On both sides of the LED

1

2

strip, put on a heatshrinkable tube and shrink

it with a hairdryer.

4. If you are using a metal

+V
DO GND

profile or surface to which

the LED strip will be glued,

be sure to stick electrical

+V DI

GND

tape (such as double-sided

+V

DO GND

tape) to the work surface. If

the profile is not used or

the surface is made of

3

+V DI GND

insulating material, skip this step.

5. Insert the LED strip into the

profile and fix the profile to

the stairs if not already

done. Or stick the tape at

the intended place of the

step if the surface is not

conductive.

4

5

Pic.3

Find a place for the installation of sensors.

Pyroelectric sensors can be installed at any distance from the floor or steps. Pyroelectric sensors work on the principle of detecting the movement of an object whose temperature differs by 5 degrees or more from other surrounding surfaces. Motion detection distance up to 5-6 meters. The angle of view of the pyroelectric sensors is approximately 50 degrees in the horizontal plane and 40 in the vertical plane (see diagram in the sensor description section). Some models of sensors (PIR-SR501-1) allow to reduce sensitivity to 2 meters by means of the adjusting resistor. When selecting the installation location, keep in mind that there are no heating devices and warm air movement in the field of view of the sensor, otherwise false positives are possible.
Ultrasonic rangefinders are based on the principle of reflected ultrasonic radiation. The controller will compare the measured distance to the obstacle with the value of the distance in the settings (which you can set yourself using the WEB interface of the controller). The rangefinder has an emitter and a receiver in the design. The angle of the sound is about 45 degrees in a pie chart. Therefore, it should be understood that if the sensor is installed directly on the floor or steps, the sound waves reflected from their surface will be received by the receiver and the sensor measures the distance for them (Figure 4). That make it impossible for the sensors to work properly.

The sensor measures the distance to the floor,

Therefore, the distance to any side surfaces must

instead of the distance to the obstacle on the stairs. be at least the distance required to detect obstacles

on the stairs (see Figure). Accordingly, if you plan to

work with the sensor at a distance of 1 m, it should

be installed so that there are no other surfaces in its

field of view that could reflect the sound wave.

Considering that the sound propagation angle of the

ultrasonic transducer is approximately 45 degrees,

a distance of at least 50 cm from surfaces is

sufficient with a measurement distance of 1 m.

(Figure 5) If you plan to install the transducer at a

shorter distance, this distance can be reduced. You

Pic.4

can see the measured distance with the ultrasonic sensor in the settings menu on the corresponding

page.

Sensor cables.

Use a shielded cable to connect the sensors

(Figure 6), ground the cable shield or connect it to

the “-” power supply. This is necessary to protect the

sensor signal from inductive interference that can

occur in the wire from other electrical appliances, as

well as a number of other power wires are laid.

Measure the length of the cables without residue.

Never wrap leftover cables with coils. This can lead

to a transformer effect and high voltage signal

wires, which will lead to the failure of the digital

inputs of the controller or the complete destruction

of the microprocessor. The cable length for

ultrasonic sensors should not exceed 8 m. There is

no such limitation for pyroelectric sensors, but the

Pic.5

wire cross-section should be chosen correctly so

that the voltage drop along its length does not

exceed 5% (the voltage at the other end is not less

than 4.75V). … 5 V for 1 A on page 3.)

Pic.6
Sensor connection. Pyroelectric upper sensor: · Connect the red wire of the sensor (+ 5V) to the output of the controller 2 (+ 5V). · Connect the Black wire of the sensor (-V GND) to the output of the controller 1 (-V (Ground)) · Connect the Green wire of the sensor (Data) to the output of the controller 4 (Upper sensor
(Trigger) 3.3V) Ultrasonic top sensor: · Connect the red wire of the sensor (+ 5V) to the output of the controller 2 (+ 5V). · Connect the Black wire of the sensor (-V GND) to the output of the controller 1 (-V (Ground)) · Connect the green wire of the sensor (Triger) to the output of the controller 4 (Upper sensor
(Trigger) 3.3V) · Connect the yellow wire of the sensor (Echo) to the output of the controller 5 (Upper sensor
(Echo) 3.3V)

Pyroelectric lower sensor: · Connect the red wire of the sensor (+ 5V) to the output of the controller 2 (+ 5V). · Connect the Black wire of the sensor (-V GND) to the output of the controller 1 (-V (Ground)) · Connect the Green wire of the sensor (Data) to the output of the controller 6 (Upper sensor
(Trigger) 3.3V) Ultrasonic bottom sensor: · Connect the red wire of the sensor (+ 5V) to the output of the controller 2 (+ 5V). · Connect the Black wire of the sensor (-V GND) to the output of the controller 1 (-V (Ground)) · Connect the green wire of the sensor (Triger) to the output of the controller 6 (Upper sensor
(Trigger) 3.3V) · Connect the yellow wire of the sensor (Echo) to the output of the controller 7 (Upper sensor
(Echo) 3.3V)
Photoresistor connection. If you plan to use a controller with a photosensor to automatically lock the controller in case the light level exceeds the set threshold, you need to connect a light sensor. Also, the use of a photoresistor makes it possible to use the adaptive brightness mode. That is, in the dark, automatically reduce the brightness by the percentage you specify, depending on the decrease in the brightness of the general lighting. This will keep your eyes from blinding in the dark.

1

2

To connect a photo sensor: · put a heat-shrinkable tube of appropriate diameter on the wires. · solder the wire 3 (Photo resistor (5V)) from the output of the controller to one of the contacts
of the photoresistor, · solder the second contact of the photoresistor to the output of the controller 2 (+ 5V).
(Photoresistor has no polarity. There is no difference between its contacts) · put the heat shrink tube on the photoresistor contacts and the soldering spot. · Shrink the shrink with a hair dryer.
Connection of buttons for forced switching on / off.
Buttons are optional. The buttons will allow you to forcibly turn the stairs light on and off, while the light will remain on until any of the buttons are pressed again. The light is switched on in the direction from the pressed button to the opposite side. Any buttons without fixing (for example buttons of a doorbell) which will be pleasant to you on design can be used. · To connect the upper button, connect the output of the controller 2 (+ 5V) to one of the
contacts of the button, and the output of the controller 8 to the second contact of the button. · To connect the lower button, connect the output of the controller 2 (+ 5V) to one of the
contacts of the button, and the output of the controller 9 to the second contact of the button.

AC 110/240V
DC IN 5/12V

(GND) –
Input DC 5/12V Indicator colors Output

onnection diagram.

Foto resistor

Up button

Up Button

Down Button

Status

SmartStairway SS-WS28xx-Wi-Fi Addressable LED Staircase Controller

1

-V (Ground)

1

2 +5V (max 0.5A)

2

3 Photo resistor 5V

3

4 Sensor Up (Trigger) 3.3V

4

+ – Power on

5 Sensor Up (Echo) 3.3V

5

6 Sensor Down (Trigger)3.3V

6

– Access Point on

7 Sensor Down (Echo)3.3V

7

– DHCP Network WEB Server ON – Static IP Network WEB Server ON

8 Up button 5V

8

– DOWN Sensor Detected

9 Down button 5V

9

– UP Sensor Detected – Day mode. The lights are turned off.
Access point name: SmartStairway

10 Smart LED Data pin

10

http://xopc.net.ua

+380 999 500 300

Password: smart2812

E-Mail: sale@xopc.net.ua

URL: www.smartstairway.com (only Access point Wi-Fi connect)

Down button

The connection of the segments is always made from DO (Digital Output) to DI (Digital
Input)

In: DC5-12V Out: DC+5V
Motion sensor pyroelectric PIR SR-501-1

Don’t forget about the direction of the tape
Always signal input on pin DI
After connecting all the equipment, make sure that everything is connected according to the above peripheral connection diagram. All connections are secure and there are no short circuits. To do this, use a multimeter turned on in the ringing mode. When you are sure that everything is installed correctly and there are no short circuits, you can connect the power to the power supply. The LED will turn red and then turn yellow (see Table 3). This means that the controller has switched to access point mode and is ready to make settings.

7. Settings.
The controller is configured using the WEB interface of the controller. The controller can work in 3 connection modes: · Wi-Fi Access point – This mode is activated when you cannot connect to the local
network, or if the settings specify the “Access point” mode. In this mode, you can find an access point called “SmartStairway” in the list of Wi-Fi networks and join it from your smartphone, tablet, laptop, etc., using the password “smart2812”. Usually the IP address of the controller is: 192. 168. 1. 4. Also in the access point mode the controller has a DNS server that allows you to connect to a WEB page called “www.smartstairway.com”. Note that when connecting to an access point mode on your device, it is best to turn off other types of data and mobile internet. Otherwise, it may not be possible to connect to the controller’s WEB page (this is not true for all devices and depends on the software version and device manufacturer).

· Connecting to a local network using DHCP. If your local network uses a router with

DHCP configured, you can configure the controller to automatically

connect to your network as a local WEB server. With this type of

connection, the controller tries to connect to the Wi-Fi network of your

choice immediately after turning on the power, using the password you

specified from your network. If the connection fails within 10 seconds,

the controller will switch to Wi-Fi access point mode. With this type of

DHCP connection, your router will automatically assign an IP address

to the controller. The subnet mask and DNS server specified in the router settings will be used. You can find out the IP address of the

IP Scaner wor Windows

controller by viewing the connected devices in the router settings, or

by using a program to scan local IP devices on the local network, such

as IP Scaner. You can download the program for scanning local IP

addresses by following the link on the QR code for Windows, or from

the APP Store for Mac OS.

· Connection to the local network using static IP, network mask,

and the specified DNS server ardor. This connection method can be

useful if your router does not have DHCP, or you want to assign a

IP Scanner for Mac OS

static IP to the controller that will not change when you connect to the

network again. Be careful when specifying the settings for this setting. If you make a

mistake when specifying parameters such as the subnet mask, or the IP address of the

DNS server of your network, the controller will connect to the network, but you will not be

able to connect to it and make any changes. If this happens Turn off the router, restart the

controller by turning it off and on again. The controller will initially try to connect to the

router, but when it fails, it will switch to access point mode. You will then be able to

reconnect to it and fix the error in the network settings.

Let’s take a closer look at the connection step by step. 1. Enter the Wi-Fi settings of your mobile device. 2. In the list of available Wi-Fi networks, select the network
named “SmartStairway”. 3. Confirm that you want to connect to the network even
though you don’t have Internet access. 4. Enter the password: “smart2812” and click “Connect”. 5. Open your browser. And enter the url:
www.smartstairway.com, or IP address 192.168.1.4 .

If the page does not loading, disable mobile data transmission.

If the start page of the controller settings is loaded, then you did everything correctly and you can proceed to the settings. If not, go back to step 1.and reconnect.

Basic system settings. You must first make basic settings. Indicate the type of LED strip used, the number of steps, the type of sensors used and the operating distance for ultrasonic sensors. Also, if necessary, select the method of connection to the local network, select the local network, specify the type of connection and password. And in this section you can also test the sensors, and see the measured distance to the obstacle with ultrasonic sensors, if you use them. To enter the settings, click the “Sign in Setup” button.
1. Select the type of LED strip you are using. 2. Indicate the number of steps. 3. Click the “Submit” button
1. Specify the number of pixels for each step. One pixel is not equal to the LED for WS2811 LED strip. For WS2812 LED strip 1 pixel = 1 LED, for WS2811 – 1 pixel = 3 LEDs.
2. Click the “Submit” button
The system will reboot. Click the “Home” button after the system boots and connects to the network. If the settings were made in access point mode, reconnect to the Wi-Fi controller according to the connection procedure described earlier.

Select the type of sensors you use and click “Save”. After that you will get to the next page.
On this page you can see which sensors are selected and set the distance of the ultrasonic sensor. If the distance to the obstacle is less than the specified parameter, the controller will turn on the stairs in the direction from this sensor to the opposite. Enter the required values and click the “Submit” button. You can check how the sensors work on the next page.
The value of the minimum distance to obstacles, less than which the system will be turn on the light. The sensor worked Actual distance to the obstacle measured by an ultrasonic sensor
The sensor did not work
Click to return.

Configuring network functions.
If you want to connect the controller to your local network and configure it to connect to your router every time the power is turned on, you can do so in this section. Note that the page of this section may load with some delay. This is normal and is due to the fact that the controller disconnects from the Wi-Fi network to scan for available networks, after which it restores the connection, which can cause a delay in displaying the WEB page.

Select the desired connection mode from the dropdown list. 1. Connect in Wi-Fi access point mode. In this mode, the controller will not connect to the local network and will turn on the access point each time. Settings will only be available when connected to WiFi from your device.

2. Connection to the local network in DHCP mode.

If your router is configured to use DHCP and automatically

provides IP addresses to all devices that connect to it, you

2

1

can choose this connection method. Each time the power is turned on, the controller will automatically connect to the

mains. The router will automatically give it an IP address,

assign a subnet mask, and a DNS server address. How to

3 find out the IP address of the controller is described earlier.

1. Select the type of use “Network WEB server (DHCP)”

4

2. Click the “Save” button. The page will reload and the network selection and password entry will appear.

3. Select a network from the drop-down list. The networks

in the list are in order from strongest to weakest. The

names of powerful networks are written in green,

5

medium-power in blue, weak names in red, and their

use is not recommended. Failures and not stable work

are possible.

4. Enter the password for your local Wi-Fi network.

5. Click the “Save” button.

Restart the controller, wait until it connects to the network.

Even if your router is configured to automatically provide IP addresses using DHCP, it is sometimes much easier to manually configure a static IP address. This is because DHCP can automatically change the address given to the controller after restarting the router or controller, and you will have to scan the local network every time you connect to the controller, or look at the current IP address in the router settings. Therefore, if you are an advanced user and know which IP addresses are free on your network, the subnet mask and DNS address may be more convenient to manually configure these settings. Then, with each new connection, the controller will always connect to the network with the same parameters.

2
5 6
7

3. Connection to the local network in static IP.

1. Select the connection type “Network WEB server

(Static IP)”

2. Click the “Save” button. The page will refresh

1

and the network selection from the drop-down

list will be available.

3 3. Select your local network from the drop-down

list.

4. Enter the network access password.

5. Click the “Save” button. The entered data will be

saved.

6. – Enter the IP address of the controller. Before

4

doing so, make sure that this address is free and

not being used by other devices.

– Specify the gateway address. Usually she is

matches the IP address of your router.

– Specify a subnet mask. For home peer-to-peer

networks are usually

255.255.255.0

– Specify Primary DNS. Usually he is

matches the IP address of your router.

– Specify Secondary DNS. Usually he is

matches the IP address of your router.

7. Carefully check all entered data, and

click the “Submit” button

Then restart the controller for the changes to take

effect. Just turn it off, wait 10 seconds. and turn it on

again.

  • Example of default settings for a home router: IP: 192.168.1.XX – where XX is a free network address. Gateway: 192.168.1.1 Subnet mask: 255.255.255.0 Primary DNS: 192.168.1.1 Secondary DNS: 192.168.1.1

  • This example is for example only. It may differ from your

network settings

If you find it difficult to set these settings – Check with

your ISP.

Adjust effects and other settings.
You can select different modes for turning on the stairs light and different effects in standby mode. You can also select the demo selection mode, when the effects will change automatically after a certain period of time. Also, if you want everything to be turned off in standby mode, select the “No effect” mode. Don’t forget to press the “Submit” button to save the selected settings.

tips on the controller’s WEB server settings page.

Color selection for static effects and color dynamics. In static modes you can choose any color and shade. Set rainbow dynamics for static effects. Choose the percentage of rainbow colors from the color wheel: 100%, 75%, 50%, 25% colors. Choose fully animated and post-animation effects. The number of settings available for settings varies depending on the selected effect. Follow the hints and

This setting is available if you have selected an effect or rainbow color. It allows you to select the number of colors of the rainbow on the color wheel displayed simultaneously on the steps. Everything is 100%, 1/4 is 25%, 1/2 is 50%, or 2/3 is 75%.
Adjust brightness, speed and latency. This section has an intuitive interface and tips. You can customize the system to your requirements. Set the brightness in stair lighting mode and in standby mode. Adjust the on and off speed. Set the waiting time after the last operation of any of the sensors, after which the light will be turned off.
Light sensor settings. The system can be used without a light sensor. But the light sensor greatly expands the capabilities of the system. Having installed the photoresistor from the delivery set you will be able to set a threshold of switching off of light to which the system will work, and after excess will be switched off. You can also adjust the sensitivity of the sensor. This setting prevents an instantaneous response to short-term changes in the brightness of the room, such as headlights entering a window and so on. The recommended sensitivity is 20 lux. You can activate adaptive brightness. This mode allows you to reduce the brightness in the dark from the set brightness setting by a specified percentage. The percentage can be set from 10 to 90%. That is, for example, the set brightness of 100 units. and the percentage of adaptive brightness of 90%, the threshold of 100Lk. Then at a brightness of 100 indoors 100Lk, the brightness of the stairs will be 100 units, and in complete darkness 90% less, that is 10 units.
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The main parameters Module HC-SR501

parame te r

Value

V a lue

3.2 x 24 x 18

V olta ge

DC 4.5V- 20V

Current at OUT

<60uA

Output voltage

High and low level 3.3V TTL

Distance detection

2 – 5m (customizable)

Angle of detection

120 °

Pulse the detection of

5 – 200sek. (Customizable)

Time Lock

2.5sek the next measurement.

Operating temperature -20 – + 80 ° C

-20 – + 80 ° C

Mode

L – single capture, H – repeatable measurements

8. Operating conditions and safety rules.
1. The system is designed for use in dry and clean rooms. Not allowed use outdoors or in damp areas. 2. Do not operate the system near flammable liquids, gases, explosive vapors. liquids or chemical particles. 3. Before connecting power to the system, carefully check all the points in this manual. observed. 4. If damage to elements is detected during installation or operation of the system , Turn off the power and troubleshoot. 5. Installation of the system requires certain skills and knowledge of basic electrical engineering. Instrumentation and installation tools required. Entrust the installation of the system to a professional electrician with experience in installing low voltage electronic systems.
9. Additional information 1. Light sources The following can serve as LED light sources: – addressable LED strips WS2811, WS2812 along the entire length of the steps; – segments of LED strips WS2811, Ws2812; or on the rungs of the stairs; Fastening of LED strips can be carried out: – in special aluminum profiles with a diffusing screen; – on plastic brackets (in this case, it is better to use moisture-resistant LED strips). – for the convenience of connecting the combined negative and positive contacts of LED light sources, use single-pole terminals or screwless terminals. 3. Power supply – select a power source based on the required system power with a margin of 20% (at least 10%); – connect power through the circuit breaker to quickly de-energize the system if nessesary; – Use overvoltage protection devices – this will protect your system in the event of unexpected power surges. – if several controllers with different power sources are used in series to connect the lighting, it is necessary to connect the negative wires together.
Warranty and service information Limited warranty for one (1) year The manufacturer warrants to the end user who first purchased the product from a distributor or sales agent (hereinafter referred to as the “Manufacturer’s Partner”) that no defects in materials or workmanship are detected in the product under the following conditions (hereinafter referred to as “Warranty”). Warranty period “): Wired and wireless products: one (1) year from the date of purchase If this product is sold or otherwise transferred to a third party, the Warranty is void and automatically void. In addition, the Warranty is void if: (a) modification, repair or maintenance of the Product has been performed without the permission of the Manufacturer or the Manufacturer’s Partner authorized to perform warranty service, regardless of whether these actions were successful, and (b) when used together with the manufacture of accessories and other peripheral equipment not manufactured or certified by the Manufacturer.
During the Warranty Period, the Manufacturer undertakes (at the Manufacturer’s discretion) to: (a) repair the product using new or updated parts for repair; »). The warranty sets out the maximum liability and limitation of the manufacturer’s obligations to the end user of the product, except as provided by law.
The warranty on replaced or repaired products is six (6) months OR the remaining period of the initial Warranty Period, whichever is longer.
The manufacturer makes every effort to reduce environmental pollution and therefore includes in the product refurbished equipment with used components, which are partially upgraded. All used components meet the high requirements for quality, performance and reliability of the manufacturer’s products. Defective parts or products replaced by the Manufacturer or returned during the Warranty Period become the property of the Manufacturer.
Obtaining warranty service For Warranty Service, contact the Manufacturer’s Partner from whom you purchased the product.
The product must be returned in the original packaging, if possible, or in packaging with a similar degree of protection. During the Warranty Period, except as otherwise provided by law, all costs of delivery of the product to the Manufacturer or another place specified by the Manufacturer shall be borne by the Buyer. If the Warranty covers this product, the Manufacturer will reimburse the cost of return shipping after completion of service. The cost of returning the product that does not meet the warranty is borne by the end user. The carrier is responsible for damage caused during delivery, so any claims must be made directly to the carrier.
To receive Warranty Service, you must provide: · Defective product. · User name, company name, if applicable, address, email address and telephone number. · Problem description. · Proof of purchase with a clear indication of the name and address of the Manufacturer’s Partner, date of purchase, product type and model number. In the absence of
confirmation of purchase, the warranty period is calculated taking into account the serial number of the product.
Consumable parts and accessories not covered by the Warranty The warranty does not cover parts that are consumed with a limited service life and accessories that are subject to natural wear and tear if they are not defective and have not been damaged before the purchase of the product. Such parts and accessories include: Basic connector for modular plug wires Base wires for connection Terminal connectors Decorative finishes and body details.
Warranty limitations This warranty applies only to products purchased for use, not for resale. This Warranty is void if you change or remove from the product the factory sticker with the serial number, date of manufacture label and / or identification label.
This Warranty applies only to defects in factory materials and factory assembly and does not cover defects or damage caused or associated with (a) improper storage, installation or operation; misuse or abuse; accident or negligence, (b) contact with any liquid, (c) exposure to the product or accessories to abnormal or improper conditions, or (d) other acts not the fault of the Manufacturer, including matters relating to the Manufacturer’s Partner. The end user is obliged to operate and maintain the product in accordance with the technical characteristics and instructions supplied with it. The warranty does not cover repairs resulting from failure to comply with this condition.
UNDER THIS WARRANTY WARRANTY, THE ONLY MEAN OF PROTECTING THE END USER’S RIGHTS IS REPAIR, REPLACEMENT OR REIMBURSEMENT OF THE COST OF THE PRODUCT. IN NO EVENT PRODUCER NOR Partner MANUFACTURER WILL NOT BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING FROM BREACH OF WARRANTY EXPRESS OR IMPLIED IN THIS PRODUCT, INCLUDING, WITHOUT LIMITATION COMMERCIAL LOSS, INCIDENTAL EXPENSES, DAMAGES OR OTHER TIME inconvenience. TO THE PERMITTED LEGISLATIVE SCOPE, THIS WARRANTY EXCLUDES AND REPLACES ALL EXPRESS AND SUBJECT WARRANTIES, INCLUDING THE GOODS WARRANTY AND ADJUSTMENT.
NOTE. This Guarantee grants the end user a number of legal rights. Depending on the country of residence of the end user, he may have other rights. Legislation in some countries does not allow the exclusion or limitation of certain warranties or liability for incidental or consequential damages, so the above exceptions may not apply. This warranty does not violate the legal rights of the purchaser under existing federal or municipal law.

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