This smart plug can be included in any Z-Wave network and act as a repeater. It has a button used for inclusion, exclusion, and reset. When powered, the LED will indicate if it is included in a network. It can remember power states and has functions for load monitoring and control of associated devices.
Procedimentos para ensaios de motores elétricos, com situações de aprendizagem, tabelas e gráficos para a compreensão, por parte dos alunos, do funcionamento dos motores elétricos.
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Power quality is becoming a major concern for
many electrical users. The high power non linear loads
(such as adjustable speed drives, arc furnace, static power
converter etc) and low power loads (such as computer, fax
machine etc) produce voltage fluctuations, harmonic
currents and an inequality in network system which results
into low power factor operation of the power system. The
devices commonly used in industrial, commercial and
residential applications need to go through rectification for
their proper functioning and operation. Due to the
increasing demand of these devices, the line current
harmonics create a major problem by degrading the power
factor of the system thus affecting the performance of the
devices. Hence there is a need to reduce the input line
current harmonics so as to improve the power factor of the
system. This has led to designing of Power Factor
Correction circuits. Power Factor Correction (PFC)
involves two techniques, Active PFC and Passive PFC. An
active power factor circuit using Boost Converter is used for
improving the power factor. This thesis work analyzes the
procedural approach and benefits of applying Bridgeless
Boost Topology for improving the power factor over Boost
Converter Topology. A traditional design methodology
Boost Converter Topology is initially analyzed and
compared with the Bridgeless Boost topology and the
overall Power Factor (PF) can be improved to the
expectation. Method of re-shaping the input current
waveform to be similar pattern as the sinusoidal input
voltage is done by the Boost converter and the related
controls that act as a Power Factor Correction (PFC)
circuit. Higher efficiency can be achieved by using the
Bridgeless Boost Topology. In this paper simulation of Boost
Converter topology and Bridgeless PFC boost Converter is
presented. Performance comparisons between the
conventional PFC boost Converter and the Bridgeless PFC
Boost Converter is done.
L'Elettromeccanica Piossasco nasce dalla trasformazione dell'Elettromeccanica Luparia, fondata agli inizi degli anni '50 da Giacinto e dal figlio, ing. Alessandro. A partire dal 1962 l'azienda si è specializzata esclusivamente nella costruzione di trasformatori in olio. Negli ultimi anni, seguendo l'evoluzione del mercato, è stata ampliata la gamma di produzione con i trasformatori a secco e trasformatori in resina. L'azienda opera stabilmente sui mercati esteri dagli inizi degli anni '80.
Power factor correction using bridgeless boost topologyDHEERAJ DHAKAR
Power quality is becoming a major concern for
many electrical users. The high power non linear loads
(such as adjustable speed drives, arc furnace, static power
converter etc) and low power loads (such as computer, fax
machine etc) produce voltage fluctuations, harmonic
currents and an inequality in network system which results
into low power factor operation of the power system. The
devices commonly used in industrial, commercial and
residential applications need to go through rectification for
their proper functioning and operation. Due to the
increasing demand of these devices, the line current
harmonics create a major problem by degrading the power
factor of the system thus affecting the performance of the
devices. Hence there is a need to reduce the input line
current harmonics so as to improve the power factor of the
system. This has led to designing of Power Factor
Correction circuits. Power Factor Correction (PFC)
involves two techniques, Active PFC and Passive PFC. An
active power factor circuit using Boost Converter is used for
improving the power factor. This thesis work analyzes the
procedural approach and benefits of applying Bridgeless
Boost Topology for improving the power factor over Boost
Converter Topology. A traditional design methodology
Boost Converter Topology is initially analyzed and
compared with the Bridgeless Boost topology and the
overall Power Factor (PF) can be improved to the
expectation. Method of re-shaping the input current
waveform to be similar pattern as the sinusoidal input
voltage is done by the Boost converter and the related
controls that act as a Power Factor Correction (PFC)
circuit. Higher efficiency can be achieved by using the
Bridgeless Boost Topology. In this paper simulation of Boost
Converter topology and Bridgeless PFC boost Converter is
presented. Performance comparisons between the
conventional PFC boost Converter and the Bridgeless PFC
Boost Converter is done.
L'Elettromeccanica Piossasco nasce dalla trasformazione dell'Elettromeccanica Luparia, fondata agli inizi degli anni '50 da Giacinto e dal figlio, ing. Alessandro. A partire dal 1962 l'azienda si è specializzata esclusivamente nella costruzione di trasformatori in olio. Negli ultimi anni, seguendo l'evoluzione del mercato, è stata ampliata la gamma di produzione con i trasformatori a secco e trasformatori in resina. L'azienda opera stabilmente sui mercati esteri dagli inizi degli anni '80.
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The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
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The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
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Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
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Sectoral targets and attacks as well as the cost of ransom
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Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
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In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
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Axis of attacks – Europe
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https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
State of ICS and IoT Cyber Threat Landscape Report 2024 preview
Neo coolcam - smart-plug user guide v2 - Zwave
1. NEO (Coolcam) POWER PLUG
SMART PLUG USER MANUAL
Introduction
This product can be included and operated in any Z‐Wave network with other Z‐Wave certified
devices from other manufacturers and/or other applications. All non‐battery operated nodes
within the network will act as repeaters regardless of vendor to increase reliability of the
network.
In the front casing, there is button that is used to carry out include, exclude or reset factory
default settings on PCB Board.
When power is first supplied, the LED will flash on and off with yellow alternately every 1 second
intervals within 5 seconds if the detector has not been added a Z‐Wave network, otherwise the
LED will flash on and off 5 times with cyan alternately every 300 millisecond. Please get familiar
with the terms below before starting the operations.
This Plug has function that remembers the relay states, the plug will turn on after power up next
time if the plug is turn on before the power cut‐off.
Add the Device (Smart Plug) to Z‐Wave Network
1. Make sure the sensor is powered.
2. Set Z‐Wave controller or Z‐Wave gateway into inclusion mode (Refer to the controller or
gateway operating manual)
3. Press the button three times within 1.5 second, the device will enter inclusion mode. And the
LED will flash on and off with green alternately five times within 2 seconds.
Delete the Device (Smart Plug) from Z‐Wave Network
1. Make sure the sensor is powered.
2. Set Z‐Wave controller or Z‐Wave gateway into exclusion mode (Refer to the controller or
gateway operating manual)
3. Press the button three times within 1.5 second, the device will enter exclusion mode. And
the LED will flash on and off with yellow alternately five times within 2 seconds.
Restore the Device (Smart Plug) to Factory Default Settings
Reset procedure will delete all information on the Z‐Wave network and Z‐Wave controller or
Z‐Wave Gateway, and restore the sensor to factory default settings.
1. Make sure the sensor is powered.
2. Press and hold the button more than 10 seconds until the LED blink with red color.
3. Release the button.
Note: to use the reset procedure only when the primary controller is missing or inoperable.
2. Associations
Through an association this Plug may control another Z‐Wave network device, e.g. a alarm
device, wall plug, lighting etc.The Wall Plug provides three association groups, and every group
can be support to associated 5 devices max.
GROUP 1 is lifeline service that assigned to plug status – ON/OFF. It enables the Plug to send
reports and readings to Z‐Wave Controller or Z‐Wave Gateway. This Group Support:
NOTIFICATION_REPORT_V4
METER_REPORT_V4
SWITCH_BINARY_REPORT
DEVICE_RESET_LOCALLY_NOTIFICATION
GROUP 2 allows for sending control commands to associated devices such as Siren, relay module,
lighting, etc. If current load is over the max current defined in parameter #3, the Plug will send a
BASIC_SET (0xFF) to associated devices. When current load is normal, plug will send a BASIC_SET
(0x00) to associated devices. This Group Support:
BASIC_SET
GROUP 3 allows for Send Notification to associated devices in this group. This Group Support:
NOTIFICATION_REPORT_V4
Current Load and Energy Consumption
This Plug provides line voltage, current load, power consumption and energy consumption
measuring. These measurement results are sent to Z‐Wave Controller or Z‐Wave Gateway.
Voltage – The Supply Power Voltage For Plug.
Current – The Current for the Electric Device Connect to Plug Consumption.
Power – Power Consumed by an Electric Device in an Instant, unit: Watt(W).
Energy – Energy Consumed by an Electric Device through a Time Period. Most commonly
Measure in Kilowatt‐hours (kWh). One kilowatt‐hour is Equal to One Kilowatt of Power
Consumed over a Period of One Hour, 1kWh = 1000Wh.
NOTE: Energy (kWh) is default scale for Meter Command Class Version 1.
About Notification CC
If current load is great than value defined in parameter #3, plug will send NOTIFICATION CC to
Z‐Wave controller. And if there are some devices associated with this plug, it will receive a
BASIC_SET command from plug.
Notification Report Command:
Event Present:
Command Class: COMMAND_CLASS_NOTIFICATION
3. Command: NOTIFICATION_REPORT
Notification Type: NOTIFICATION_TYPE_POWER_MANAGEMENT
Event: NOTIFICATION_EVENT_POWER_MANAGEMENT_OVER_CURRENT_DETECTED
Event Clear:
Command Class: COMMAND_CLASS_NOTIFICATION
Command: NOTIFICATION_REPORT
Notification Type: NOTIFICATION_TYPE_POWER_MANAGEMENT
Event: NOTIFICATION_EVENT_POWER_MANAGEMENT_NO_EVENT
Over Current Protection Simulating (For Certification Test / Production Test)
4. When the wall plug is turn on, you can set 0xFF to parameter #100 through Configure CC to
trigger over current protection. If you set, the wall plug will send
NOTIFICATION_EVENT_POWER_MANAGEMENT_OVER_LOAD_DETECTED to lifeline, and the wall
plug will be turn off, red Led will blink every second. You can press the button once to clear this
alarm and then the wall plug will be back to normal state.
Advanced Configuration
1. Send Meter Report Enable.
This parameter defines Disable/Enable meter report measure data to controller.
Function: Meter Report Enable
Parameter Number: 1.
Parameter Size: 1 Byte
Available Settings: 0, 1.
0– Disable Report,
1‐ Enable Report
Default Setting: 1.
2. Meter Report Interval
This parameter defines interval time (in seconds) that Meter report data to main controller.
Function: Set Report Interval
Parameter Number: 2.
Parameter Size: 2 Byte
Available Settings: 1 – 65535(s).
Default Setting: 300(s)
3. Configure maximum over‐load current.
This parameter defines maximum current the plug can provide to load that be connected to plug.
If the current consumed by load is greater than maximum current, the plug will cut off power,
and send NOTIFICATION_EVENT_POWER_MANAGEMENT_OVER_LOAD_DETECTED to associated
devices in lifeline. Red Led will blink every seconds until current is normal (less than Parameter
#3). You must remove the loader and turn on the Plug (press the button once) to enable current
monitor and clear NOTIFICATION ALARM.
This parameter value must be great than #4. If user set this parameter to default by Configure CC,
the parameter #4 will be set to default value.
Function: Set the upper current threshold.
Parameter Number: 3.
Parameter Size: 1 Byte
Available Settings: 1 – 16 (Ampere).
6. This parameter defines maximum current, if the current plug provide to load is great than this
parameter, the plug will light yellow LED, but plug cannot cut‐off power.
This parameter value must be less than parameter #3. If user set this parameter to default by
Configure CC, the parameter #3 will be set to default value.
Function: Set Alarm upper current threshold.
Parameter Number: 4.
Parameter Size: 1 Byte
Available Settings: 1 – Parameter #3 (Ampere).
Default Setting: 12(A).
5. Led Display Enable
This parameter defines the LED indication Function ON/OFF. This parameter can be configured
with 0 or 1, where 0 means disable LED indication Function and will always be turn‐off, and 1
means enable LED Function.
Function: LED Enable/Disable
Parameter Number: 5.
Parameter Size: 1 Byte
Available Settings: 0, 1.
Default Setting: 1.
6. Configure report by Current Changed
This parameter defines by how much current changed must change to be reported to the Z‐Wave
Controller or Z‐Wave Gateway, in percents. If the rate of power consumed change ratio is greater
than this parameter, the plug will report the results, voltage, current, power and energy, that plug
measure to Z‐Wave Controller or Z‐Wave Gateway.
Function: Meter Reporting Setting
Parameter Number: 6.
Parameter Size: 1 Byte
Available Settings: 1 – 100 (%).
Default Setting: 5(%).
7. Remember Relay ON/OFF status
This parameter defined the relay status if remember or not. If remembered, the plug will restore
the relay status last power off when the plug supply power next time.
Function: Remember Relay Status
Parameter Number: 7.
Parameter Size: 1 Byte
7. Available Settings: 0 , 1
0 – Don’t Remember, the relay will keep OFF when Plug Supply Power.
1 – Remember the Relay Status.
8. Default Setting: 1.
8. Configure Plug Time switch Function
This parameter defines the timer function Enable/Disable. This parameter can be configured with
0 or 1, where 0 means disable time switch function and 1 enable. The time period will be defined
in parameter #9.
If this parameter is Set to 1, and when turn the plug relay on, the timer in plug start run with time
period defined in parameter #9 and the plug will turn the relay off.
Function: Time switch Configure
Parameter Number: 8.
Parameter Size: 1 Byte
Available Settings: 0, 1
0– Time switch Disable.
1– Time switch Enable.
Default Setting: 0
9. Configure Time switch Period
This parameter defines the time period that plug time switch off. This parameter can be
configured 1 ~ 65535(in minutes). If Parameter #9 is set to ‘1’, and relay is turn‐on, the relay will
be turn‐off after delay this parameter.
Function: Time switch Configure
Parameter Number: 9.
Parameter Size: 2 Byte
Available Settings: 1 ~ 65535(minutes).
Default Setting: 150(min)
10. Button On/Off Enable
This parameter defines the button on/off function is enabled or not on the top of the wall plug.
This parameter can be configured 0 and 1. If this parameter is set to ‘1’, users can turn on and off
the wall plug by pressing the button on the top of the wall plug. If this parameter is set to ‘0’, the
wall plug cannot be turned on and off by pressing the button.
Function: Enable Button On/Off
Parameter Number: 10.
Parameter Size: 1 Byte
Available Settings: 0, 1.
Default Setting: 1
9. LED Color Indicator
LED Color Led Display Status Description
Pink
Blink 5 Times(1s Interval) Power on and Not Add in Z‐Wave Network
Blink 5 Times(500ms Interval) Send Node Info when Press Button tripled.
Blue Blink 5 Times(300ms Interval) Power on and Already Add in a Z‐Wave Network
Blink 5 Times(500ms Interval) Press Button tripled, Adding the Plug in a Z‐Wave
Yellow
Network.
Always Light The Load Current is Arrived Alarm limit(Param
#4)
Blink 1 Time Press the Button Long Time, Reset the Plug to
Red
restore default settings
Blink with 1 second interval The Load Current is great than Max Load defines
in Param #3.
Green Always Light The Plug is Power on.
Manufacture ID: 0x0258
Product ID: 0x0087
Command Classes
The Plug supports Command Classes as Below:
0 COMMAND_CLASS_ZWAVEPLUS_INFO (V2)
0 COMMAND_CLASS_MANUFACTURER_SPECIFIC (V2)
0 COMMAND_CLASS_VERSION (V2)
0 COMMAND_CLASS_ASSOCIATION (V2)
0 COMMAND_CLASS_ASSOCIATION_GRP_INFO (V1)
0 COMMAND_CLASS_DEVICE_RESET_LOCALLY (V1)
0 COMMAND_CLASS_POWERLEVEL (V1)
0 COMMAND_CLASS_SWITCH_BINARY (V1)
0 COMMAND_CLASS_NOTIFICATION (V4)
0 COMMAND_CLASS_METER (V4)
0 COMMAND_CLASS_CONFIGURATION (V1)
0 COMMAND_CLASS_SWITCH_ALL (V1)
0 COMMAND_CLASS_BASIC (V1)
SPECIFICATIONS
Power Supply: AC110 ~ 230V(±10%), 50/60Hz
Rate Load Current: 13A, 110‐230V, 50/60Hz – Continuous Load
16A, 110‐230V, 50/60Hz – Momentary Load
Power Consumption: 0.13W
EU Standards Compliance:
Radio Protocol: Z‐Wave
Radio Frequency: EU – 868.4MHz
US – 908.4MHz
10. Valid Range: Up to 60m outdoors
Up to 30m indoors (Depending on terrain and building
structure)
Operational Temperature: 0 – 40 ℃