This document provides information about the SPIDER unit from TALGIL COMPUTING & CONTROL LTD. including:
1. The SPIDER unit utilizes GSM cellular technology to provide communication abilities to irrigation controllers from remote locations via SMS messages and WAP commands.
2. Each SPIDER can serve up to 10 irrigation controllers within a distance of several kilometers and can send SMS messages to up to 9 phone numbers regarding the status of controllers.
3. The WAP system allows users to remotely start/stop programs, open/close valves, check statuses, and more from their cellular phones.
DTMF Controlled Robot Car WITHOUT using MICROCONTROLLERVishwanath Neha
This document describes a DTMF controlled robot project created by a team of students under the guidance of O.SRIKANTH. The robot uses two mobile phones, where one phone calls the other phone mounted on the robot to control it through DTMF tones. When buttons are pressed on the calling phone, corresponding tones are received by the robot phone and processed by a DTMF decoder chip to operate motors via a motor driver chip. Potential applications are discussed along with advantages of long distance control without coding and disadvantages of requiring a camera and incurring call charges.
This document describes the design of a dual band mobile phone jammer that can jam signals in the GSM 900 and GSM 1800 frequency bands. [1] The jammer works by transmitting noise signals within the downlink frequencies of 935-960 MHz and 1805-1880 MHz to overwhelm mobile signals and cause a "no service" message on phones. [2] Key components include a voltage controlled oscillator, power amplifier, and antenna for each band. [3] The device was tested successfully in jamming all major mobile carriers in Jordan.
o Positioning and Tracking Cars by SMS
o Emergency Alarm, Power Off Alarm
o Movement Alert, Over Speed Alert
o Geo-fence to restrict the car move within a district.
o Restart the vehicle by SMS.
This document provides a project definition for a GSM based home automation system using an AVR microcontroller. The system will allow controlling home appliances like AC and DC devices via phone calls by pressing buttons on the phone that generate DTMF tones, which are decoded by the microcontroller. The microcontroller is an ATmega16 that will be programmed in C language. It will interface with a DTMF decoder, relay modules, and L293D motor driver. The software tools used will include a compiler for the microcontroller, serial downloading software, and Windows XP as the operating system.
This document describes a robot that can be controlled via DTMF tones sent from a mobile phone. The robot has a mobile phone attached that can receive DTMF tones corresponding to buttons pressed on the calling phone. A microcontroller on the robot decodes the tones and controls motors via an H-bridge motor driver to move the robot in different directions. The system allows remote robotic control over large areas using existing mobile networks without interference from other controllers.
This document describes a DTMF controlled robot that can be operated without a microcontroller. The robot uses two mobile phones, where one phone calls the other phone attached to the robot. When buttons are pressed on the calling phone, DTMF tones are generated and received by the robot phone. A DTMF decoder chip processes the tones and sends signals to a motor driver chip to control two motors on the robot chassis. This allows the robot to be remotely controlled over a phone network from long distances without requiring complex coding or a microcontroller.
This document provides information about the SPIDER unit from TALGIL COMPUTING & CONTROL LTD. including:
1. The SPIDER unit utilizes GSM cellular technology to provide communication abilities to irrigation controllers from remote locations via SMS messages and WAP commands.
2. Each SPIDER can serve up to 10 irrigation controllers within a distance of several kilometers and can send SMS messages to up to 9 phone numbers regarding the status of controllers.
3. The WAP system allows users to remotely start/stop programs, open/close valves, check statuses, and more from their cellular phones.
DTMF Controlled Robot Car WITHOUT using MICROCONTROLLERVishwanath Neha
This document describes a DTMF controlled robot project created by a team of students under the guidance of O.SRIKANTH. The robot uses two mobile phones, where one phone calls the other phone mounted on the robot to control it through DTMF tones. When buttons are pressed on the calling phone, corresponding tones are received by the robot phone and processed by a DTMF decoder chip to operate motors via a motor driver chip. Potential applications are discussed along with advantages of long distance control without coding and disadvantages of requiring a camera and incurring call charges.
This document describes the design of a dual band mobile phone jammer that can jam signals in the GSM 900 and GSM 1800 frequency bands. [1] The jammer works by transmitting noise signals within the downlink frequencies of 935-960 MHz and 1805-1880 MHz to overwhelm mobile signals and cause a "no service" message on phones. [2] Key components include a voltage controlled oscillator, power amplifier, and antenna for each band. [3] The device was tested successfully in jamming all major mobile carriers in Jordan.
o Positioning and Tracking Cars by SMS
o Emergency Alarm, Power Off Alarm
o Movement Alert, Over Speed Alert
o Geo-fence to restrict the car move within a district.
o Restart the vehicle by SMS.
This document provides a project definition for a GSM based home automation system using an AVR microcontroller. The system will allow controlling home appliances like AC and DC devices via phone calls by pressing buttons on the phone that generate DTMF tones, which are decoded by the microcontroller. The microcontroller is an ATmega16 that will be programmed in C language. It will interface with a DTMF decoder, relay modules, and L293D motor driver. The software tools used will include a compiler for the microcontroller, serial downloading software, and Windows XP as the operating system.
This document describes a robot that can be controlled via DTMF tones sent from a mobile phone. The robot has a mobile phone attached that can receive DTMF tones corresponding to buttons pressed on the calling phone. A microcontroller on the robot decodes the tones and controls motors via an H-bridge motor driver to move the robot in different directions. The system allows remote robotic control over large areas using existing mobile networks without interference from other controllers.
This document describes a DTMF controlled robot that can be operated without a microcontroller. The robot uses two mobile phones, where one phone calls the other phone attached to the robot. When buttons are pressed on the calling phone, DTMF tones are generated and received by the robot phone. A DTMF decoder chip processes the tones and sends signals to a motor driver chip to control two motors on the robot chassis. This allows the robot to be remotely controlled over a phone network from long distances without requiring complex coding or a microcontroller.
Manual Smart water leakage sensor Z-Wave Plus - ZipatoDomotica daVinci
The Smart Water Leakage Sensor uses ZigBee wireless technology and has a low power design for long battery life. It can detect water leaks in places like basements, machine rooms, and bathrooms. It has a range of 70 meters, works from -10°C to 50°C, and uses 2 AAA batteries that provide over a year of battery life. The sensor is installed by removing the battery strip, sticking the sensor body in the desired location using the included bracket, and pairing it with a mobile app using the button.
This document describes a GSM based home automation system using DTMF signals. It involves a DTMF decoder, microcontroller, and relays. The system allows controlling electrical devices via mobile phone by sending DTMF tones. When a button on the phone is pressed, the corresponding DTMF tone is decoded by the microcontroller. The microcontroller then activates the necessary relays to control the electrical loads. This allows remote control of appliances and robots through the mobile phone network without needing a separate remote controller.
The document provides answers to frequently asked questions about GPS trackers. It covers questions about SIM cards, registration, location tracking via SMS and online, and recommended upload commands. Key points addressed include:
- Recommending M2M SIM cards for lower cost without voice functions. GPRS and caller ID must be enabled.
- Troubleshooting a flashing green light by checking the SIM and signal strength.
- Verifying the SIM works by calling the device number or checking SMS replies.
- The importance of setting the correct APN for data uploads and the format for commands.
- Reasons a device may reply with LBS not GPS locations and steps to improve GPS reception.
- How to view real
The document provides an operating manual for the FIBARO Swipe gesture control device, which allows contactless control of Z-Wave devices through gestures without touching the device, detailing its features, gestures and menu options, power modes, adding and removing from networks, and creating custom sequences of gestures. The FIBARO Swipe is a battery-powered gesture control device that can detect gestures like swipes and circles to control connected Z-Wave devices without being touched.
This document describes a wireless controlled robot using DTMF tones and a microcontroller. The robot can be controlled from a mobile phone by pressing buttons which are decoded by a DTMF receiver and sent to the microcontroller. The microcontroller then controls the motor driver and motors to move the robot in the corresponding directions. Potential applications include military, law enforcement, search and rescue, and home automation. The design could be improved in the future by adding sensors, password protection, camera, and alarm functions.
The document provides an installation guide for the ZXT-600 AC Master device. It includes instructions on powering on the device, including it in a Z-Wave network, setting up automatic status reports and associations, selecting an IR code to control an air conditioner, learning IR codes, and configuration options.
This document provides information about the Hank Flood Sensor device, including how to include it in a Z-Wave network, its configuration parameters, technical specifications, and explanations of Z-Wave terminology. The sensor can detect leaks and floods and sends alerts. It uses the international Z-Wave protocol for wireless communication between smart home devices.
This document describes a DTMF (Dual Tone Multi Frequency) based load control system. The system uses a DTMF decoder interfaced with a microcontroller to receive DTMF tones from a cell phone and control loads remotely. When a key is pressed on the cell phone, the corresponding DTMF tones are received by the decoder and converted to digital codes. The microcontroller then turns relays on/off to actuate loads according to the received commands, allowing remote control of industrial and agricultural equipment or household devices spread over a large area.
1) The document describes a mobile controlled robot that can be operated via dual-tone multi-frequency (DTMF) tones sent from a mobile phone.
2) The robot uses a DTMF receiver and decoder chip to receive and interpret DTMF tones from a calling mobile phone into digital commands. These commands are sent to a motor driver chip to control two motors and move the robot forward, backward, or change direction.
3) Operation involves calling the mobile phone attached to the robot. Pressing numbers on the calling phone's keypad generates DTMF tones that are received and translated into motor control signals by the robot.
This document provides a synopsis for a project titled "Cell Phone Operated Land Rover". The project aims to control a land rover using a mobile phone. A mobile phone would be connected to a microcontroller and DTMF decoder onboard the rover. When buttons are pressed on the calling phone, DTMF tones are generated and received by the rover, decoded into instructions for the microcontroller to drive motors accordingly. The synopsis outlines the motivation, objectives, methodology, expected timeline and potential impact of using mobile phone control for remote vehicles in academics and industry.
This document describes a cell phone based device control project developed under the guidance of Ms. G. Susmitha. The objective is to turn appliances on and off using a cell phone as a remote control. The system allows controlling up to 6 devices and provides voice status updates. It uses components like a microcontroller, DTMF receiver, relay driver, and other basic electronic components. The circuit diagram and working are explained, including interfacing techniques. Advantages, limitations, software used, and future scope are discussed.
This document provides information about a Z-Wave compatible smoke detector, including instructions for inclusion into a Z-Wave network, descriptions of its operating modes like alarm, low battery, and testing modes, and details about its configuration parameters and associations with other Z-Wave devices.
This document describes a major project submitted by four students to fulfill the requirements for a Bachelor of Engineering degree in Electronics and Communication. The project is about designing a TV remote to function as a cordless mouse for a computer. The remote would send infrared signals that are received by an IR sensor connected to a microcontroller. The microcontroller would then send the signals to the computer through a serial port to control mouse functions like cursor movement and clicks. The project aims to allow wireless mouse operation without sitting near the computer.
VX.X.X
Serial Number: XXXXXXXX Unique serial number of camera
Sensor Serial: XXXXXXXX Unique serial number of sensor
4.1.8 GALLERY
The gallery allows the user to view captured images and
videos stored in the camera’s internal memory.
Pressing the snapshot button with the Gallery option
highlighted will bring up the gallery.
The gallery displays thumbnails of images and videos. Use
the up/down buttons to scroll through the thumbnails.
Pressing the snapshot button on a thumbnail will display
the full size image or first frame of a video.
Pressing the power button will exit the gallery.
The gallery has the
This document provides product information for a 10 year smoke detector and siren with Z-Wave connectivity. It can detect smoke and wirelessly report alarms while also functioning as a controllable indoor siren. The detector uses a long-life battery while the Z-Wave module uses a replaceable battery. It can be included in a Z-Wave network to communicate with other devices and can trigger automated responses through associations. The document provides details on installation, operation, configuration parameters, and troubleshooting.
Microcontroller remote controlling projectBipro Roy
This project aims to remotely control home appliances using a mobile phone. A caller can control appliances by pressing buttons on their phone, generating DTMF tones. These tones are decoded by a microcontroller which then activates relays connected to appliances. The microcontroller was programmed in C to activate relays corresponding to different DTMF tone combinations. This allows remote control of appliances from any phone.
The document summarizes a student project report on developing a remote controlled robotic vehicle using Dual-Tone Multi-Frequency (DTMF) technology. It provides details on the technology used, including the DTMF system and keypad frequencies. It includes circuit diagrams and component lists. It then discusses applications of remote controlled vehicles in scientific research, military, search and rescue, and recreation. It concludes by describing additional features that could be added to improve obstacle detection and security and increase the robot's range of operation.
This document provides instructions for setting up and using a Popp HUB home automation controller. The Popp HUB is a Z-Wave gateway that can control smart home devices and define scenes. Setup involves connecting the HUB to a local network, accessing the web interface, and registering the device. The HUB interface allows adding and controlling Z-Wave devices, creating rooms and dashboard widgets. Additional functionality is provided through apps that integrate other technologies and automation logic.
This document discusses using dual tone multi-frequency (DTMF) technology to control a robot autonomously. DTMF uses tone signals transmitted over phone lines to send commands. A DTMF decoder chip receives the tones and uses them to control a microcontroller and motors. Infrared sensors allow the robot to navigate obstacles under phone control without infrastructure. Potential applications include automated factory vehicles, security robots, and mine detection. While simple, this approach demonstrates using basic technologies like DTMF and sensors for autonomous navigation.
This document provides information about a GM03CW car GPS tracker, including:
1. An overview of the product components, interfaces, and indicator light meanings.
2. Specifications and functions of the tracker, such as location accuracy, communication methods, and battery life. It also describes functions like time tracking, speed alarms, and low power modes.
3. Instructions for installation, setup via SMS, and common troubleshooting issues like poor signal location.
4. Customer support information like warranty details and after sales service contact options.
Manual Smart water leakage sensor Z-Wave Plus - ZipatoDomotica daVinci
The Smart Water Leakage Sensor uses ZigBee wireless technology and has a low power design for long battery life. It can detect water leaks in places like basements, machine rooms, and bathrooms. It has a range of 70 meters, works from -10°C to 50°C, and uses 2 AAA batteries that provide over a year of battery life. The sensor is installed by removing the battery strip, sticking the sensor body in the desired location using the included bracket, and pairing it with a mobile app using the button.
This document describes a GSM based home automation system using DTMF signals. It involves a DTMF decoder, microcontroller, and relays. The system allows controlling electrical devices via mobile phone by sending DTMF tones. When a button on the phone is pressed, the corresponding DTMF tone is decoded by the microcontroller. The microcontroller then activates the necessary relays to control the electrical loads. This allows remote control of appliances and robots through the mobile phone network without needing a separate remote controller.
The document provides answers to frequently asked questions about GPS trackers. It covers questions about SIM cards, registration, location tracking via SMS and online, and recommended upload commands. Key points addressed include:
- Recommending M2M SIM cards for lower cost without voice functions. GPRS and caller ID must be enabled.
- Troubleshooting a flashing green light by checking the SIM and signal strength.
- Verifying the SIM works by calling the device number or checking SMS replies.
- The importance of setting the correct APN for data uploads and the format for commands.
- Reasons a device may reply with LBS not GPS locations and steps to improve GPS reception.
- How to view real
The document provides an operating manual for the FIBARO Swipe gesture control device, which allows contactless control of Z-Wave devices through gestures without touching the device, detailing its features, gestures and menu options, power modes, adding and removing from networks, and creating custom sequences of gestures. The FIBARO Swipe is a battery-powered gesture control device that can detect gestures like swipes and circles to control connected Z-Wave devices without being touched.
This document describes a wireless controlled robot using DTMF tones and a microcontroller. The robot can be controlled from a mobile phone by pressing buttons which are decoded by a DTMF receiver and sent to the microcontroller. The microcontroller then controls the motor driver and motors to move the robot in the corresponding directions. Potential applications include military, law enforcement, search and rescue, and home automation. The design could be improved in the future by adding sensors, password protection, camera, and alarm functions.
The document provides an installation guide for the ZXT-600 AC Master device. It includes instructions on powering on the device, including it in a Z-Wave network, setting up automatic status reports and associations, selecting an IR code to control an air conditioner, learning IR codes, and configuration options.
This document provides information about the Hank Flood Sensor device, including how to include it in a Z-Wave network, its configuration parameters, technical specifications, and explanations of Z-Wave terminology. The sensor can detect leaks and floods and sends alerts. It uses the international Z-Wave protocol for wireless communication between smart home devices.
This document describes a DTMF (Dual Tone Multi Frequency) based load control system. The system uses a DTMF decoder interfaced with a microcontroller to receive DTMF tones from a cell phone and control loads remotely. When a key is pressed on the cell phone, the corresponding DTMF tones are received by the decoder and converted to digital codes. The microcontroller then turns relays on/off to actuate loads according to the received commands, allowing remote control of industrial and agricultural equipment or household devices spread over a large area.
1) The document describes a mobile controlled robot that can be operated via dual-tone multi-frequency (DTMF) tones sent from a mobile phone.
2) The robot uses a DTMF receiver and decoder chip to receive and interpret DTMF tones from a calling mobile phone into digital commands. These commands are sent to a motor driver chip to control two motors and move the robot forward, backward, or change direction.
3) Operation involves calling the mobile phone attached to the robot. Pressing numbers on the calling phone's keypad generates DTMF tones that are received and translated into motor control signals by the robot.
This document provides a synopsis for a project titled "Cell Phone Operated Land Rover". The project aims to control a land rover using a mobile phone. A mobile phone would be connected to a microcontroller and DTMF decoder onboard the rover. When buttons are pressed on the calling phone, DTMF tones are generated and received by the rover, decoded into instructions for the microcontroller to drive motors accordingly. The synopsis outlines the motivation, objectives, methodology, expected timeline and potential impact of using mobile phone control for remote vehicles in academics and industry.
This document describes a cell phone based device control project developed under the guidance of Ms. G. Susmitha. The objective is to turn appliances on and off using a cell phone as a remote control. The system allows controlling up to 6 devices and provides voice status updates. It uses components like a microcontroller, DTMF receiver, relay driver, and other basic electronic components. The circuit diagram and working are explained, including interfacing techniques. Advantages, limitations, software used, and future scope are discussed.
This document provides information about a Z-Wave compatible smoke detector, including instructions for inclusion into a Z-Wave network, descriptions of its operating modes like alarm, low battery, and testing modes, and details about its configuration parameters and associations with other Z-Wave devices.
This document describes a major project submitted by four students to fulfill the requirements for a Bachelor of Engineering degree in Electronics and Communication. The project is about designing a TV remote to function as a cordless mouse for a computer. The remote would send infrared signals that are received by an IR sensor connected to a microcontroller. The microcontroller would then send the signals to the computer through a serial port to control mouse functions like cursor movement and clicks. The project aims to allow wireless mouse operation without sitting near the computer.
VX.X.X
Serial Number: XXXXXXXX Unique serial number of camera
Sensor Serial: XXXXXXXX Unique serial number of sensor
4.1.8 GALLERY
The gallery allows the user to view captured images and
videos stored in the camera’s internal memory.
Pressing the snapshot button with the Gallery option
highlighted will bring up the gallery.
The gallery displays thumbnails of images and videos. Use
the up/down buttons to scroll through the thumbnails.
Pressing the snapshot button on a thumbnail will display
the full size image or first frame of a video.
Pressing the power button will exit the gallery.
The gallery has the
This document provides product information for a 10 year smoke detector and siren with Z-Wave connectivity. It can detect smoke and wirelessly report alarms while also functioning as a controllable indoor siren. The detector uses a long-life battery while the Z-Wave module uses a replaceable battery. It can be included in a Z-Wave network to communicate with other devices and can trigger automated responses through associations. The document provides details on installation, operation, configuration parameters, and troubleshooting.
Microcontroller remote controlling projectBipro Roy
This project aims to remotely control home appliances using a mobile phone. A caller can control appliances by pressing buttons on their phone, generating DTMF tones. These tones are decoded by a microcontroller which then activates relays connected to appliances. The microcontroller was programmed in C to activate relays corresponding to different DTMF tone combinations. This allows remote control of appliances from any phone.
The document summarizes a student project report on developing a remote controlled robotic vehicle using Dual-Tone Multi-Frequency (DTMF) technology. It provides details on the technology used, including the DTMF system and keypad frequencies. It includes circuit diagrams and component lists. It then discusses applications of remote controlled vehicles in scientific research, military, search and rescue, and recreation. It concludes by describing additional features that could be added to improve obstacle detection and security and increase the robot's range of operation.
This document provides instructions for setting up and using a Popp HUB home automation controller. The Popp HUB is a Z-Wave gateway that can control smart home devices and define scenes. Setup involves connecting the HUB to a local network, accessing the web interface, and registering the device. The HUB interface allows adding and controlling Z-Wave devices, creating rooms and dashboard widgets. Additional functionality is provided through apps that integrate other technologies and automation logic.
This document discusses using dual tone multi-frequency (DTMF) technology to control a robot autonomously. DTMF uses tone signals transmitted over phone lines to send commands. A DTMF decoder chip receives the tones and uses them to control a microcontroller and motors. Infrared sensors allow the robot to navigate obstacles under phone control without infrastructure. Potential applications include automated factory vehicles, security robots, and mine detection. While simple, this approach demonstrates using basic technologies like DTMF and sensors for autonomous navigation.
This document provides information about a GM03CW car GPS tracker, including:
1. An overview of the product components, interfaces, and indicator light meanings.
2. Specifications and functions of the tracker, such as location accuracy, communication methods, and battery life. It also describes functions like time tracking, speed alarms, and low power modes.
3. Instructions for installation, setup via SMS, and common troubleshooting issues like poor signal location.
4. Customer support information like warranty details and after sales service contact options.
You will know how to use the LTE 4G FDD GPS tracker TK419
TK419 is often used to track vehicles, motorcycles or boats,and It is a useful tool for fleet management. The users can also cut off fuel/ignition remotely and check historical routes and other vehicle data. The TK419 has excellent stability.
TK419 can be used for locating, tracking and monitoring any remote target through SMS, PC Computer or Mobile APP.
This document is a user manual for King Pigeon's GSM SMS Controller alarm systems. It describes the features and functions of the S130, S140, and S150 models, which allow users to remotely monitor and control equipment via SMS text messages. The manual provides setup instructions, a list of SMS commands, and specifications for the alarm systems. It also contains safety guidelines and describes the various inputs, outputs, and components of the controller units.
The AD830 alarm control panel uses GSM and telephone lines for alarm communication. Users can select either GSM or telephone line priority. The panel checks GSM signal strength and allows remote arming, disarming, and status checks via calls or SMS messages to the panel's GSM number. RFID cards can be programmed to send SMS messages when swiped. The panel can also make outgoing calls. Proper power is required for the GSM module to function correctly.
S264~s266 temperature data logger user manual v2.1... Gorch
Here are the steps to configure the basic settings:
1. Click "Read setting" to load the existing settings before making any changes.
2. Check or uncheck "Arm automatically when power on" based on your preference.
3. Check or uncheck "Add timestamp to alarm SMS" based on your preference.
4. Check or uncheck "Press * or # to stop Dial" based on your preference and device model.
5. Enter a number between 0-65535 for "Device ID". This is optional for identification.
6. Enter a description for "Device description", such as the installation location.
7. Click "Write setting" to save the basic settings to
Xexun gps vehicle tracker xt009 user manualxxgpstraker
The document provides instructions for setting up and using an XT-009 GPS vehicle tracker. It includes details on hardware components, installation, functions like geo-fencing, speed alerts, and more. The tracker can be used to monitor vehicles, track assets, and ensure safety of people. It supports features such as motion detection, ignition alerts, and sending emergency alerts with the press of a button.
Shenzhen Eelink Communication Technology Co. Ltd., launches a new product, TK119 waterproof GPS vehicle tracker to position, monitor and control the vehicle on the position server through GPRS, GPS, GLONASS and internet.
The document is a user guide for the GT30 Personal Tracker, which is a small GPS and GSM tracking device. It provides location tracking through SMS or GPRS, has quick dial buttons, an SOS button, and can send location alerts. The guide describes the device features, specifications, hardware, setup instructions, and operation details over 50 pages.
This product is with GPS module and GSM module, that has many new and unique functions, such as super power saving technology, LBS locate technology (without GPS signal), real time uploading current location to server (user can control working mode), check current location bu SMS or app on mobile phone or website etc. It contains high capacity rechargeable polymer battery (900mAH), standby time can reach 12 days (working mode 1, report mode 0). User can control different working mode for different using (real time mode or standby mode) , it can work without platform, just send SMS to check current location, also it can upload location to sever by user setting time interval, and user can check current location & playback history tracking on mobile app or PC web visiting. This GPS tracker is mini size, and easy to use, it is suit for kids, old parents, pets and outdoor workers tracking.
IOS/Android Touch lcd gsm alarm system LS-GSM-215Alice Hsu
LS-GSM-215 is an affordable and easy-to-use GSM alarm system for all types of space control: summer cottages, apartments, offices, warehouses, garages, convenience stores, financial room , villas,boats, and mobile homes.
This document provides a user manual for a CT-1016-5G 16 Bands Antenna Jammer. It lists accessories including the main unit, power adapter, car charger, and 16 omni antennas. It describes how to install and operate the device, noting the device should be kept away from electronics when powered on. Temperature operating ranges and battery recharging procedures are also outlined. Frequency bands for both European and American models are defined.
1) The document is a user manual for Shenzhen Diwei Machinery Co., Ltd.'s TK116 GPS vehicle tracking terminal.
2) It provides instructions on installing, using, and troubleshooting the terminal, which supports vehicle positioning and tracking via GPS, GSM, and GPRS networks.
3) The manual covers technical specifications, installation steps, wiring diagrams, setting up the terminal, terminal functions like positioning inquiries, fuel cutoff controls, and more.
This document summarizes the features of the UT01 GPS tracker for vehicle tracking and management. It has a wide operating voltage range of 9-36V, allows for remote engine immobilization and voice monitoring, and provides cost-effective tracking solutions. The UT01 has multiple interfaces for monitoring and control, external antennas for better signal reception, and sends alarms for SOS alerts, vehicle movement, speed, and geo-fencing.
The document summarizes an installation and operation manual for a vehicle security system that sends text messages and GPS data to a mobile phone. It alerts the owner if the vehicle alarm sounds or the battery is disconnected, and allows requesting the current GPS location via text. The manual provides instructions on initialization, controlling outputs, requesting GPS data, changing passwords, testing and installing the system.
This document provides a user manual for a 5-band handheld mobile phone jammer. It describes how to install and operate the device to jam different mobile network bands, including instructions on connecting antennas and using a switch to enable or disable coverage on each band. Safety instructions are given, such as keeping the device away from other electronics and not operating it while charging. The device's operating temperature range and battery recharge life are also outlined.
Discover the latest insights on Data Driven Maintenance with our comprehensive webinar presentation. Learn about traditional maintenance challenges, the right approach to utilizing data, and the benefits of adopting a Data Driven Maintenance strategy. Explore real-world examples, industry best practices, and innovative solutions like FMECA and the D3M model. This presentation, led by expert Jules Oudmans, is essential for asset owners looking to optimize their maintenance processes and leverage digital technologies for improved efficiency and performance. Download now to stay ahead in the evolving maintenance landscape.
Advanced control scheme of doubly fed induction generator for wind turbine us...IJECEIAES
This paper describes a speed control device for generating electrical energy on an electricity network based on the doubly fed induction generator (DFIG) used for wind power conversion systems. At first, a double-fed induction generator model was constructed. A control law is formulated to govern the flow of energy between the stator of a DFIG and the energy network using three types of controllers: proportional integral (PI), sliding mode controller (SMC) and second order sliding mode controller (SOSMC). Their different results in terms of power reference tracking, reaction to unexpected speed fluctuations, sensitivity to perturbations, and resilience against machine parameter alterations are compared. MATLAB/Simulink was used to conduct the simulations for the preceding study. Multiple simulations have shown very satisfying results, and the investigations demonstrate the efficacy and power-enhancing capabilities of the suggested control system.
Optimizing Gradle Builds - Gradle DPE Tour Berlin 2024Sinan KOZAK
Sinan from the Delivery Hero mobile infrastructure engineering team shares a deep dive into performance acceleration with Gradle build cache optimizations. Sinan shares their journey into solving complex build-cache problems that affect Gradle builds. By understanding the challenges and solutions found in our journey, we aim to demonstrate the possibilities for faster builds. The case study reveals how overlapping outputs and cache misconfigurations led to significant increases in build times, especially as the project scaled up with numerous modules using Paparazzi tests. The journey from diagnosing to defeating cache issues offers invaluable lessons on maintaining cache integrity without sacrificing functionality.
KuberTENes Birthday Bash Guadalajara - K8sGPT first impressionsVictor Morales
K8sGPT is a tool that analyzes and diagnoses Kubernetes clusters. This presentation was used to share the requirements and dependencies to deploy K8sGPT in a local environment.
Software Engineering and Project Management - Introduction, Modeling Concepts...Prakhyath Rai
Introduction, Modeling Concepts and Class Modeling: What is Object orientation? What is OO development? OO Themes; Evidence for usefulness of OO development; OO modeling history. Modeling
as Design technique: Modeling, abstraction, The Three models. Class Modeling: Object and Class Concept, Link and associations concepts, Generalization and Inheritance, A sample class model, Navigation of class models, and UML diagrams
Building the Analysis Models: Requirement Analysis, Analysis Model Approaches, Data modeling Concepts, Object Oriented Analysis, Scenario-Based Modeling, Flow-Oriented Modeling, class Based Modeling, Creating a Behavioral Model.
Embedded machine learning-based road conditions and driving behavior monitoringIJECEIAES
Car accident rates have increased in recent years, resulting in losses in human lives, properties, and other financial costs. An embedded machine learning-based system is developed to address this critical issue. The system can monitor road conditions, detect driving patterns, and identify aggressive driving behaviors. The system is based on neural networks trained on a comprehensive dataset of driving events, driving styles, and road conditions. The system effectively detects potential risks and helps mitigate the frequency and impact of accidents. The primary goal is to ensure the safety of drivers and vehicles. Collecting data involved gathering information on three key road events: normal street and normal drive, speed bumps, circular yellow speed bumps, and three aggressive driving actions: sudden start, sudden stop, and sudden entry. The gathered data is processed and analyzed using a machine learning system designed for limited power and memory devices. The developed system resulted in 91.9% accuracy, 93.6% precision, and 92% recall. The achieved inference time on an Arduino Nano 33 BLE Sense with a 32-bit CPU running at 64 MHz is 34 ms and requires 2.6 kB peak RAM and 139.9 kB program flash memory, making it suitable for resource-constrained embedded systems.
artificial intelligence and data science contents.pptxGauravCar
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Lenh sms-wetrack-lite
1. Vehicle GPS Tracker
User Guide
(Version 1.1)
To ensure quickly and correctly use, please read
this manual carefully before using. Any changes
to the product appearance, color or accessories
are without notice.
1. Overview
1.1 Main Functions
·GPS + LBS positioning
·Vibration / Displacement alarm
·Power failure / Overspeed alarm
·Compact and lightweight
1.2 Specications
Frequency
GPRS
Location Accuracy
TTFF (open sky)
Battery
Working voltage/current
Standby current
Operating Temperature
Dimension
Weight
GSM 850/900/1800/1900MHz
Class 12, TCP/IP
<10 meters
Avg. hot start ≤2sec
Avg. cold start ≤32sec
100mAh/3.7V industrial grade li-ion
polymer battery
9-36VDC/32mA(12VDC),18 mA(VDC)
≤5mA
-20℃— +70℃
73.8(L) x 25.9(W) x 12.2(H) mm
26.6g
2. Overview
2.1 Device
Power connect wire
SIM card
Battery switch
GSM
indicator
GPS
indicator
2.2 Device
User Manual Power Adapter
2.3 LED Indicator
Blue LED
Status
Flash quickly
Solid red
Dark
Meaning
Searching signal
Positioning succeed
Sleep/Dormant
Green LED
Status
Quick ashing
Slow ashing
Solid blue
Dark
Meaning
Search network
Normal network signal
Calling/Online
Abnormal network/No SIM card
LED indicator will be OFF when device electried for 5 minutes.
LED can be controlled by platform and APP.
3. SIM card
SIM card should have access to GPRS.
Before SIM card installation, ensure external power is
disconnected and battery switch is on OFF.
1. Find the notch and remove bottom cover
2. Insert the SIM card as shown below
Power on
Open top cover and turn battery switch to ON. Terminal starts
up by using backup battery. Connect the device to external power,
then power indicator lights up and battery is charging.
When SIM card inserted,
turn battery switch to ON.
Battery switch
·IPX5 waterproof
·Geo-fence
·Mileage
Power off
Disconnect external power and turn battery switch to OFF.
Power LED is off and charging stop after device power off.
4. Wiring Instruction
Battery
5. Installation
Please install the device under the guidance of professional
personnel.
Device
Device
Device
Around dashboard
Under rear windshield
Under front windshield
Note:
The device should face up to the sky
Metal thermal barrier or heating layer of the windshield affects the
signal. Please change installation places to receive better signal.
6. Platform & APP
6.1 Login service platform
Please login the designated service platform to set and operate
the device.
6.2 Download APP
Please download and install the APP in designated website,
APP store or Google Play store.
7. Main Functions
7.1 SOS
3 SOS phone numbers can be set. Alerts will be sent to pre-set
SOS number.
(1) Add SOS number.
Send SMS command to the terminal. Command format:
SOS,A,phone number 1,phone number 2,phone number 3#
"A" means to add new numbers, for example:
SOS,A,18165542975,18165542976,18165542977#
It will reply
"OK! SOS1: 18165542975 SOS2: 18165542976 SOS3:
18165542977”after set successfully.
(2) Delete SOS number.
Command:
Send SMS command: SOS, D, phone number 1,phone number 2,
phone number 3#
(3) Check current SOS number.
Command: SOS#
Respond example: SOS1: 12352***, SOS2: 132532***,
SOS3:135323***
7.1 Multiple Alarms
Power cut-off alarm
When the electricity supply of device is cut off, alarm message will
be sent to platform and SOS number.
Low battery alarm
When backup battery is low, alarm message will be sent to platform
and SOS number.
Displacement alarm (Default OFF)
Device will send movement alarm when vehicle moves out the
pre-set distance.
Overspeed alarm (Default OFF)
Speed limitation can be set in platform or by SMS. When vehicle’s
speed exceeds the pre-set value, overspeed alarm will be sent.
Vibration alarm (Default OFF )
Device is in defense status if vibration alarm turned on. When
vehicle vibrates several times, the vibration alarm will be triggered.
7.3 Remote Restart
Restart the terminal in platform or send SMS command.
SMS command: RESET#
8. Frequently Used Command List
Check device status
Get device GPS
latitude/longitude
STATUS#
WHERE#
1
2
Check device
location in Google
Map link
SOS number setting
Vibration alarm
(Default OFF)
Displacement alarm
(Default OFF)
Power cut-off alarm
1, URL#
2, POSITION
1. Add SOS number:
SOS,A,number 1,number
2,number 3#
Example:SOS,A,12342***,134533***,
135432***#
2. Delete the SOS number:
SOS,D,phone number#
3. Query SOS number:
SOS#
1, SENALM,ON#
2, SENALM,OFF#
1. MOVING,ON,R, M#
R=100~1000; Movement radius,
unit: meter
M=0~3; 0: only GPRS;
1: SMS+GPRS;
2: GPRS+SMS+CALL;
3: GPRS +CALL; Default: 1
2. MOVING,OFF#
1. POWERALM, [A],[M],[T1],[T2],
[T3]#
A=ON/OFF, default:ON;
M=0/1/2/3, way of alarming,
0: GPRS only, 1: SMS+GPRS,
2 : GPRS+SMS+phone call,
3: GPRS+ call, default: 1;
T1=2~60 (second), power off detect
time, default: 10;
T2=1~3600 (second), default: 300;
T3=0~3600 (second), ACC ON to
OFF status step alarm prohibition
time default: 0;
2. POWERALM, OFF#
Turn off the power alarm.
3. POWERALM#
Check the parameters of the alarm.
3
4
5
6
7
Low battery alarm
Overspeed alarm
Restart
1. BATALM, [A], [ M]#
A=ON/OFF, default:ON;
M=0/1, way of alarming,
0: GPRS only, 1: SMS+GPRS
2. BATALM,OFF#
3. BATALM#
Check the parameters of the alarm.
1. SPEED,[A][,B][,C][,M]#
A=ON/OFF, turn on/off overspeed
alarm. Default: OFF
B=5~600 (second),time interval,
default:20 (second)
C=1~255(km/h), speed limit,
default:100(km/h);
M=0/1, alarm method, 0 : GPRS only,
1: SMS+GPRS, default: 1
2. SPEED#
Check the parameters of over speed.
RESET#
Device restart 20 seconds after
receiving this command
8
9
10
Troubleshooting
If you are having trouble with your device, try these
troubleshooting procedures before contacting a service
professional.
Problems Causes Solutions
The signal waves are
unable to transmit
when use the GPS
tracker in the places
that have poor signal
reception, such as: tall
building around or
basement.
Using the GPS tracker
in the places that have
good signal condition.
Poor signal
Device covered by
metal objects or face
down
Device face up or
installed in somewhere
else
Unable to
boot
Low battery Connect to external
power supply to charge
Unable to
connect to
the network
SIM card inserted
incorrectly
Insert SIM card again
Dirty things exist
above the SIM card
Clean SIM card
Damaged or invalid
SIM card
Replace SIM card
Not in GSM service
area
Move to service area
Poor signal Move to area with
strong signal
Fail to locate SIM has no access to
GPRS
Contact network
supplier to get GPRS
service
SIM card charges
owed
Charge
Fusing Contact supplier to
replace fuse
Charge
failure
Poor contact Ensure device power
wire connection
Parameters
modication
failure
Command format
error
Edit and send the
command again
No reply after sending
command
Check network and
ensure SMS available
Warranty instructions and service
1. The warranty is valid only when the warranty card is properly
completed, and upon presentation of the proof of purchase
consisting of original invoice indicating the date of purchase,
model and serial No.of the product. We reserve the right to
refuse warranty if this information has been removed or changed
after the original purchase of the product from the dealer.
2. Our obligations are limited to repair of the defect or replacement
the defective part or at its discretion replacement of the product
itself.
3. Warranty repairs must be carried out by our Authorized Service
Centre. Warranty cover will be void, even if a repair has been
attempted by any unauthorized service centre.
4. Repair or replacement under the terms of this warranty does
not provide right to extension or renewal of the warranty period.
5. The warranty is not applicable to cases other than defects in
material, design and workmanship.
Maintenance Record
Date Serviced by
Product Model
IMEI Number
Fault
Descriptions
Comments
Ignition key