campuscomponent · 6 days ago
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campuscomponent · 6 days ago
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campuscomponent · 4 months ago
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Buy RJ45 PCB Connectors Online at Campus Component
Upgrade your network solutions with high-quality RJ45 PCB Connectors from Campus Component! Whether you are a hobbyist or a professional, we offer an extensive range of RJ45 connectors that are perfect for your electronic and networking projects. Our connectors ensure reliable and efficient data transmission, supporting both Ethernet and PoE applications.
Visit: https://www.campuscomponent.com/products/rj45-pcb-connectors-cuc-sp-j1st-a-r4lb-led-co-2957-d/2208614000029631697
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campuscomponent · 4 months ago
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campuscomponent · 4 months ago
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Buy MM32F0010A1T(TR) Arm Cortex-M0 based 32-bit Microcontrollers Online 16KB Flash, 2KB SRAM 72MHz TSSOP-20 at the lowest price from Mind Motion Distributor in India | Campus Component.
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campuscomponent · 4 months ago
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campuscomponent · 5 months ago
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Buy High-Quality Nuvoton MS51FB9AE_A1ED Microcontroller at the best price in India
Buy MS51FB9AE Core 8051 8 bit controller 20 PIN Flash 16KB SRAM 1K+256 TSSOP20 is now avaliable at the lowest price from Nuvoton Distributor in India | Campus Component. Order now
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campuscomponent · 5 months ago
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ESP8266 Wifi Module | Nodemcu ESP8266 for IoT Solution
The Internet of Things (IoT) is revolutionizing the way we interact with technology, making our lives smarter and more efficient. At the heart of this revolution is the ESP8266 WiFi module, a low-cost, powerful solution perfect for your IoT projects. Whether you're a hobbyist, a professional developer, or a business looking to integrate smart technology into your products, the ESP8266 WiFi module offers unmatched versatility and performance. Here's why you should consider buying the ESP8266 WiFi module and how the NodeMCU ESP8266 can be your gateway to a myriad of IoT solutions.
What is the ESP8266 WiFi Module?
The ESP8266 is a highly integrated chip designed for the needs of a new connected world. It offers a complete and self-contained WiFi networking solution, allowing it to either host the application or offload all WiFi networking functions from another application processor. With its low cost and high performance, the ESP8266 WiFi module has become a popular choice among IoT developers.
ESP8266 NodeMcu WiFi Development Board Features:-
It is based on ESP8266, integates GPIO, PWM, IIC, 1-Wire and ADC all in one board.
Power your developement in the fastest way combinating with NodeMCU Firmware!
USB-TTL included, plug&play
10 GPIO, every GPIO can be PWM, I2C, 1-wire
Open source IoT Platform
Easily Programmable
Low cost & Simple to Implement
WI-FI enabled
ESP8266 NodeMcu WiFi Development Board Applications:-
Home Appliances
Home Automation
Smart Plug and lights
Mesh Network
Industrial Wireless Control
Baby Monitors
IP Cameras
Sensor Networks
Wearable Electronics
Why Choose NodeMCU ESP8266 for Your IoT Projects?
Ease of Use: NodeMCU's integrated USB-to-serial interface and pre-flashed firmware allow for immediate programming and development.
Versatile Programming: You can program the NodeMCU using the Arduino IDE or NodeMCU’s native Lua scripting language, giving you flexibility in development.
Wide Community Support: As one of the most popular IoT development platforms, NodeMCU has extensive documentation and a large community, making it easier to find support and resources.
Cost-Effective: NodeMCU provides a highly cost-effective solution for IoT development, offering excellent value for money.
Rapid Prototyping: Its comprehensive feature set and ease of use make NodeMCU ideal for rapid prototyping and deployment of IoT solutions.
Conclusion
Purchase Your ESP8266 and NodeMCU ESP8266 Today!
Don't miss out on the opportunity to enhance your IoT projects with the best technology available. Purchase your ESP8266 WiFi module and NodeMCU ESP8266 development board today and join the growing community of IoT developers who are shaping the future of technology.
Innovation awaits at Campus Component, where you can buy genuine ESP8266 NodeMCU boards at competitive prices. Take the first step towards realizing your IoT dreams and explore the endless possibilities of connected devices. Order now and join the IoT revolution with Campus Component as your trusted partner.
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campuscomponent · 5 months ago
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campuscomponent · 5 months ago
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campuscomponent · 5 months ago
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campuscomponent · 5 months ago
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Purchase online OLED display Modules at Low price in India from Campus Component. Online shop for Electronic components, displays, and LEDs.
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campuscomponent · 5 months ago
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Zigbee vs. Wi-Fi: Which Is Better For IoT Applications?
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With the advent of the Internet of Things (IoT), wireless communication has become important to connect various devices. ZigBee and Wi-Fi are two common wireless communication protocols used for IoT applications. Wi-Fi modules are often used for Internet connections.
However, ZigBee is explicitly designed for wireless communication between low-power devices. In this article, we will compare ZigBee and Decide which is right for your Wi-Fi and IoT applications.
Comparing ZigBee and Wi-Fi
ZigBee and Wi-Fi are both wireless communication protocols that allow devices to communicate with each other without cables or wires. However, they differ in frequency, range, and power consumption.
Frequency
ZigBee operates in the 2.4 GHz frequency band, which is also used by Wi-Fi, Bluetooth, and other wireless communication protocols. Conversely, Wi-Fi can operate in multiple frequency bands, including 2.4 GHz and 5 GHz. The 5 GHz frequency band is less congested than the 2.4 GHz band and is therefore less susceptible to interference.
Range
One of the key factors to consider when choosing between ZigBee and Wi-Fi for IoT applications is range. ZigBee's communication range is typically up to 100 meters, making it suitable for applications that require communication between devices within a limited range.
Wi-Fi, on the other hand, has a range of several hundred meters, making it a better option for applications that require Internet connectivity over a larger area.
Security
Security is an important factor to consider when choosing a wireless communication protocol for IoT applications. Both ZigBee and Wi-Fi offer various security features. However, Wi-Fi is generally considered to be more secure.
This is due to the availability of various security protocols such as WPA2 and AES encryption. ZigBee, on the other hand, uses a security protocol called ZigBee Security, which provides a basic level of security.
Power Consumption
Power consumption is another important factor when choosing between ZigBee and Wi-Fi. ZigBee is designed as a low-power wireless communication protocol, making it ideal for energy-saving IoT devices.
On the other hand, Wi-Fi modules for IoT are not well suited for battery-powered IoT devices, as they can consume a large amount of power, especially when transmitting data.
Network Topology
The network topology of your IoT application is also an important factor to consider when choosing between ZigBee and Wi-Fi. ZigBee is designed to support simple network topologies and is ideal for applications that require communication between multiple devices.
On the other hand, Wi-Fi modules support more complex network topologies, making them a better option for applications that require communication between a large number of devices.
Cost
Cost is important when choosing a wireless communication protocol for IoT applications, and ZigBee is generally cheaper than Wi-Fi, especially in large-scale deployments.
This is because ZigBee modules are typically cheaper than Wi-Fi modules and require fewer nodes in a ZigBee network, reducing overall system cost.
Wi-Fi Module for IoT The
Wi-Fi module is widely used for IoT applications that require Internet connectivity. Digi Key is a well-known manufacturer of his Wi-Fi modules for IoT applications. One of the company's products is the XB24-CZ7WIT-004 WiFi module.
A low power consumption module that supports 802.11b/g/n Wi-Fi standards. It also has a built-in TCP/IP stack that allows easy connectivity to the Internet.
ZigBee Module for IoT The
ZigBee module is widely used in IoT applications that require low-power wireless communication between devices. Digi Key is also a well-known manufacturer of his ZigBee modules for IoT applications.
One of the company's products is his ZigBee module XB3-24Z8UM, a low power module that operates in the 2.4GHz frequency band. It also has a built-in antenna and has a communication range of up to 100 meters.
Advantages of ZigBee in IoT Applications
Low Power Consumption: ZigBee modules are designed for low power consumption, making them ideal for battery-powered his IoT devices. This means that ZigBee devices can last for months or even years on a single battery.
Simple network topology: ZigBee modules use a simple star or mesh network topology, making them easy to set up and maintain.
Low cost: ZigBee modules are inexpensive, making them a cost-effective solution for IoT applications.
Suitable for large-scale deployments: ZigBee is designed for large-scale deployments and is suitable for industrial and commercial applications.
Robustness: ZigBee is designed for robustness and includes mechanisms to handle interference, channel switching, and network congestion. This makes them ideal for applications where reliability is important.
Security: ZigBee has built-in security features such as AES-128 encryption and device authentication, making it suitable for applications that require secure communications.
Scalability: ZigBee networks can be easily expanded by adding nodes, making them suitable for applications that require scalability.
Advantages of Wi-Fi in IoT Applications
High Data Rate: Wi-Fi can transfer data at high speeds, making it suitable for applications that require high bandwidth such as: B. Video streaming.
Wide Range: Wi-Fi has a wider range than ZigBee, making it suitable for outdoor applications.
Compatible with Existing Infrastructure: Wi-Fi is compatible with existing wireless networks and can be easily integrated into existing infrastructure.
Security: Wi-Fi supports various security protocols such as WEP, WPA, and WPA2, making it a secure solution for IoT applications.
High Bandwidth: WiFi has a high bandwidth of up to hundreds of Mbps, making it suitable for high-speed data transmission applications.
Ease of use: Wi-Fi is widely used and understood, making it easy for developers to implement and deploy Wi-Fi modules in IoT applications.
Integration with other systems: The Wi-Fi module can be easily integrated with other systems such as cloud platforms and mobile applications, making it easier to manage and control IoT devices.
Also Read - Esp8266 Wifi Module Pin Configuration
                     Things You Should Know Before Buying ESP8266 Wifi Module
ZigBee vs. WLAN: Which is better?
ZigBee is a good option for applications that require low power consumption and a simple network topology. ZigBee is also a cost-effective solution for IoT applications and can be deployed at scale. Digi Key offers a variety of ZigBee modules, including the XB3-24Z8UM ZigBee module, which is a low-power module with a range of up to 100 meters.
For applications that require high data rates and compatibility with existing infrastructure, WLAN is a good option. Wi-Fi is also a secure solution for IoT applications and supports a variety of security protocols. Digi Key offers several Wi-Fi modules, including the XB24-CZ7WIT-004, which is a low-power module that supports the 802.11b/g/n Wi-Fi standard and has an integrated TCP/IP stack.
Conclusion
Both ZigBee and Wi-Fi have advantages and limitations for IoT applications. Which one you choose depends on your application's specific requirements. Additionally, ZigBee is a cost-effective, low-power option for simple network topologies. However, Wi-Fi offers high data transfer speeds and compatibility with existing infrastructure.
Therefore, it is important to consider the specific requirements of your application before deciding which wireless communication protocol to use. ZigBee and Digi-Key Wi-Fi modules can provide reliable wireless communication solutions for a variety of IoT applications.
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campuscomponent · 6 months ago
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Introduction to Simcom Modules SIMCOM products include GSM/GPRS modules, CDMA 1x modules, WCDMA/HSPA modules, LTE-FDD modules, and GNSS modules, which are used in a wide range of IoT applications such as smart metering, fleet management, vehicle tracking, security systems, and industrial automation.
While many products by SIMCOM like SIM7600G-H, SIM7600E-H, SIM800C, SIM7600EI, A7672S, SIM7600E- and SIM800F Module have global value and applications as essential electrical components. They are selectively available in India. In this video you will see about introduction of SIMCOM Modules and its commonly used parts.
You can purchase SIMCOM GPS/GNSS Modules as well as the development boards from the Campus Component. https://www.campuscomponent.com/categories/gsm_2g_3g_4g/2208614000002321089 https://www.campuscomponent.com/categories/gsm_gps_combo_module/2208614000002321091
simcom #wireless #gps #gsm #mqtt #gprs #vehicletraking #moules #simcomdistributer #authorizeddistributor
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campuscomponent · 6 months ago
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campuscomponent · 6 months ago
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Features ESP32-WROOM-32UE - Campus Component
ESP32-WROOM-32 UE are two powerful, generic Wifi+BT+BLE MCU modules that target a wide variety of applications, ranging from low-power sensor networks to the most demanding tasks, such as voice encoding, music streaming and MP3 decoding. ESP32-WROOM-32 UE with an IPEX antenna. They both feature a 8 MB external SPI flash. The integration of Bluetooth®, Bluetooth LE and Wi-Fi ensures that a wide range of applications can be targeted, and that the module is all-around: using Wi-Fi allows a large physical range and direct connection to Internet through a Wi-Fi router, while using Bluetooth allows the user to conveniently connect to the phone or broadcast low energy beacons for its detection.
The sleep current of the ESP32 chip is less than 5 μA, making it suitable for battery powered and wearable electronics applications. The module supports a data rate of up to 150 Mbps, and 20 dBm output power at the antenna to ensure the widest physical range. As such the module does offer industry-leading specifications and the best performance for electronic integration, range, power consumption, and connectivity.
ESP32-WROOM-32UE Features:-
MCU :
ESP32-D0WD-V3 embedded, Xtensa® dual-core 32-bit LX6 microprocessor, up to 240 MHz
448 KB ROM for booting and core functions
520 KB SRAM for data and instructions
16 KB SRAM in RTC
802.11b/g/n
Bit rate: 802.11n up to 150 Mbps
A- Wi-Fi :
MPDU and A-MSDU aggregation
0.4 μs guard interval support
Center frequency range of operating channel: 2412 ~ 2484 MHz
Bluetooth :
Bluetooth V4.2 BR/EDR and Bluetooth LE specification
Class-1, class-2 and class-3 transmitter
AFH
CVSD and SBC
Hardware :
Interfaces: SD card, UART, SPI, SDIO, I2C, LED PWM, Motor PWM, I2S, IR, pulse counter, GPIO, capacitive touch sensor, ADC, DAC
40 MHz crystal oscillator
4 MB SPI flash
Operating voltage/Power supply: 3.0 ~ 3.6 V
Operating temperature range: –40 ~ 85 °C
Buy ESP32-WROOM-32UE 8MB Flash, 448kB ROM, 536kB SRAM 2.4GHz ~ 2.5GHz Bluetooth V4.2 BR/EDR 40MHz crystal oscillator avaliable at the lowest price from Espressif Systems Distributor in India | Campus Component.
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campuscomponent · 6 months ago
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