Oneplus NORD 30 5G FULL REVIEW and Specifications 2024

165.5 x 76 x 8.3 mm
Build: Glass front, plastic frame, plastic back
Weight: 195 g
SIM: Hybrid Dual SIM (Nano-SIM, dual stand-by)

Type: IPS LCD, 120Hz
Size: 6.72 inches, 1080 x 2400 pixels resolution
Screen-to-body ratio: ~87.1%
Always-on display feature

Operating System and Performance:
OS: Android 13, OxygenOS 13.1
Chipset: Qualcomm SM6375 Snapdragon 695 5G built on a 6nm architecture.
CPU: Octa-core processor with 2×2.2 GHz Kryo 660 Gold cores and 6×1.7 GHz Kryo 660 Silver cores.
GPU: Adreno 619

Card slot: microSDXC (shared with SIM slot)
Internal: 128GB storage, 8GB RAM, UFS 2.2

Camera System:
Main Camera:
108 MP, f/1.7 (wide)
2 MP, f/2.4 (macro)
2 MP, f/2.4 (depth)

Features: LED flash, HDR, panorama
Video: 1080p@30fps

Selfie Camera:
16 MP, f/2.4 (wide)
Features: HDR, panorama
Video: 1080p@30fps

Audio and Connectivity:
Loudspeaker with stereo speakers
3.5mm jack available
WLAN: Wi-Fi 802.11 a/b/g/n/ac, dual-band
Bluetooth: 5.1, A2DP, LEPositioning: GPS, GALILEO, GLONASS, BDS, QZSS
NFC: Yes
Radio: No
Special Features:
Sensors: Fingerprint (side-mounted), accelerometer, gyro, proximity, compass

Type: Li-Po 5000 mAh, non-removable
Charging: 50W wired


In the intricate world of electronic devices, design is not just about aesthetics but also about the tangible aspects that influence our interactions. This article takes a magnifying glass to the dimensions of a device, exploring the width in various measurement units and shedding light on how it shapes the user experience. oneplus nord 30 5g full review

oneplus nord 30 5g full review


The width of a device, often overlooked in its significance, is a critical dimension that impacts the device’s form and ergonomics. Measuring 76 mm (millimeters), 7.6 cm (centimeters), 0.249 ft (feet), and 2.992 in (inches), this horizontal side defines how the device feels in hand and its overall footprint.

  • 76 mm (millimeters): This precise measurement provides a detailed understanding of the device’s compactness, offering a glimpse into its sleek profile.
  • 7.6 cm (centimeters): In the metric system, the width is presented in centimeters, allowing users to gauge the device’s dimensions in a universally recognized unit.
  • 0.249 ft (feet): Translating the width into feet gives a macro perspective, emphasizing how the device fits into the broader spatial context.
  • 2.992 in (inches): The width in inches provides a standard unit familiar to many users, giving an immediate sense of the device’s scale.


The height of a device, measuring 165.5 mm (millimeters), 16.55 cm (centimeters), 0.543 ft (feet), and 6.516 in (inches), dictates the vertical side when used in its standard orientation.

  • 165.5 mm (millimeters): This precise measurement gives a detailed insight into the device’s vertical length, contributing to its overall stature and presence.
  • 16.55 cm (centimeters): Measured in centimeters, this unit provides an easily relatable metric for users who prefer the metric system.
  • 0.543 ft (feet): Translating height into feet provides a macro perspective, helping users visualize the device’s vertical dimension in a more familiar unit.
  • 6.516 in (inches): The height in inches offers a standard unit for users to quickly understand the device’s scale.


Now, let’s turn our attention to thickness, measured at 8.3 mm (millimeters), 0.83 cm (centimeters), 0.027 ft (feet), and 0.327 in (inches).

  • 8.3 mm (millimeters): This detailed measurement defines the device’s slimness, providing insights into its sleek profile.
  • 0.83 cm (centimeters): The thickness in centimeters offers a metric perspective, complementing the millimeter measurement.
  • 0.027 ft (feet): Translating thickness into feet gives a broader view, emphasizing the slimness of the device in a more relatable unit.
  • 0.327 in (inches): The thickness in inches serves as a standard unit, allowing users to compare the device’s slimness with familiar benchmarks.


The weight of a device, quantified at 195 g (grams), 0.43 lbs (pounds), and 6.88 oz (ounces), is more than just a number on a spec sheet. It’s the tangible heft that you feel in your hand, and it plays a crucial role in how you interact with and carry your device.

  • 195 g (grams): This precise measurement provides a detailed understanding of the device’s weight, offering insight into its overall feel and portability.
  • 0.43 lbs (pounds): Translating weight into pounds caters to users more accustomed to the imperial system, providing a broader perspective on the device’s heft.
  • 6.88 oz (ounces): The weight in ounces offers a standard unit familiar to many users, giving an immediate sense of the device’s mass.


The estimated volume of the device, calculated at 104.4 cm³ (cubic centimeters) and 6.34 in³ (cubic inches), adds another layer to the design narrative. This is not just a technical detail but a representation of how the device occupies physical space.

  • 104.4 cm³ (cubic centimeters): This measurement in cubic centimeters provides a precise understanding of the spatial presence of the device.
  • 6.34 in³ (cubic inches): Translating volume into cubic inches offers a standard unit, allowing users to visualize the device’s spatial footprint in a more familiar metric.


The device’s color options, Pastel Lime and Chromatic Gray, are not just arbitrary choices; they represent a conscious effort to cater to diverse user preferences.

  • Pastel Lime: This vibrant and refreshing color option adds a splash of personality to the device, catering to users who seek a more lively and distinctive appearance.
  • Chromatic Gray: In contrast, Chromatic Gray offers a sleek and timeless aesthetic. This neutral choice appeals to users who prefer a more understated and classic look.

Body Materials

The materials used in crafting the device’s body play a crucial role in its durability, aesthetics, and overall feel. In this case, the device is fabricated using both plastic and glass.

  • Plastic: Known for its lightweight and durable properties, plastic contributes to a device that feels comfortable in hand and is less prone to shattering upon impact.
  • Glass: On the other hand, glass exudes a premium feel and adds a touch of sophistication to the device. While it may be heavier, it often enhances the overall aesthetic appeal.
oneplus nord 30 5g full review

SIM card

    SIM Card Type

The device utilizes the Nano-SIM (4FF – fourth form factor), a standard that has evolved since 2012. This tiny marvel measures 12.30 x 8.80 x 0.67 mm, encapsulating powerful connectivity in a compact form.

oneplus nord 30 5g full review

Nano-SIM (4FF): This fourth form factor represents the evolution of SIM card technology. Its diminutive size, measuring 12.30 x 8.80 x 0.67 mm, ensures compatibility with modern devices while conserving precious space.

Number of SIM Cards

With support for 2 SIM cards, the device takes connectivity a step further. Dual SIM functionality, particularly the Dual SIM stand-by feature, ensures that both cards remain active. When one SIM card is in use, the other stands by, ready for action. This feature enhances user convenience, enabling seamless management of personal and professional contacts or the use of different mobile plans.

oneplus nord 30 5g full review

Dual SIM Stand-by

The device boasts the feature of Dual SIM stand-by, a functionality that elevates the user experience to new heights. But what does this mean?

  • Both Cards Are Active: With Dual SIM stand-by, both SIM cards are active simultaneously. This means that users can receive calls, messages, or use data on either SIM card without needing to switch or toggle between them.
  • Efficiency in Action: When one SIM card is in use—whether in a call or data session—the other remains on stand-by. This ensures that users do not miss important calls or messages, enhancing the overall efficiency of communication.
  • Seamless Management: The stand-by feature simplifies the management of two SIM cards. Users can seamlessly navigate between personal and professional numbers or juggle different mobile plans without the need for constant manual intervention.


A mobile (cellular) network is a sophisticated radio system designed to facilitate communication among a multitude of mobile devices. This infrastructure allows for voice calls, messaging, and data transfer, forming the lifeline of our digital interactions.

Evolution of GSM

GSM (Global System for Mobile Communications) Developed as a successor to the analog cellular network (1G), GSM is categorized as a 2G mobile network. Its significance lies not only in providing voice communication but also in paving the way for digital data transfer.

Frequency Bands

GSM operates across distinct frequency bands, each designated by a specific number.

  • GSM 850 MHz (B5): This frequency band is crucial for providing coverage over longer distances, making it an essential component for rural and suburban areas.
  • GSM 900 MHz (B8): Operating in this frequency range allows for improved penetration of signals through buildings and urban environments, enhancing connectivity in populated areas.
  • GSM 1800 MHz (B3): Also known as DCS 1800, this band supports higher capacity in urban settings, ensuring efficient communication in densely populated regions.
  • GSM 1900 MHz (B2): Operating in this frequency range contributes to enhanced capacity and coverage, particularly in areas with high user density.

The Impact of GSM on Connectivity

GSM’s legacy extends beyond its role as a 2G network. It has set the stage for subsequent generations of mobile technology, providing a foundation for 3G, 4G, and beyond. Its ability to adapt and evolve showcases the dynamic nature of mobile connectivity.

Frequency Bands and W-CDMA

W-CDMA Frequency Bands

W-CDMA operates across different frequency bands, each designated by a specific number.

  • W-CDMA 850 MHz (B5): This frequency band provides extended coverage, particularly in areas with larger geographic expanses, contributing to improved connectivity in rural and suburban settings.
  • W-CDMA 900 MHz (B8): Operating in the 900 MHz range enhances signal penetration through buildings and urban environments, ensuring reliable connectivity in populated areas.
  • W-CDMA 1700 MHz (B4): Also known as AWS (Advanced Wireless Services), this band supports increased capacity, especially in urban and high-density areas.
  • W-CDMA 1900 MHz (B2): Operating in this frequency range contributes to enhanced capacity and coverage, particularly in areas with high user density.
  • W-CDMA 2100 MHz (B1): This band, also known as UMTS Band I, is a standard frequency for W-CDMA deployments, ensuring compatibility and widespread use.

LTE Frequency Bands

 LTE-FDD Bands

LTE operates across a plethora of frequency bands, each designated by a specific number.

  • LTE-FDD 700 MHz (B12, B13, B17, B28): These bands in the 700 MHz range offer extended coverage, enhancing connectivity in rural and suburban areas.
  • LTE-FDD 800 MHz (B20): Operating in the 800 MHz range, this band contributes to improved signal penetration through buildings and urban environments.
  • LTE-FDD 850 MHz (B5, B18, B19, B26): Covering the 850 MHz range ensures reliable connectivity in populated areas, addressing the diverse needs of users.
  • LTE-FDD 900 MHz (B8): This band provides enhanced coverage and capacity, making it essential for ensuring connectivity in various environments.
  • LTE-FDD 1700 MHz (B4, B66): Known as AWS (Advanced Wireless Services), this band supports increased capacity, especially in urban and high-density areas.
  • LTE-FDD 1800 MHz (B3): Operating in this frequency range ensures enhanced capacity and coverage, particularly in areas with high user density.
  • LTE-FDD 1900 MHz (B2): Contributing to improved capacity and coverage, this band addresses the demand for connectivity in diverse settings.
  • LTE-FDD 2100 MHz (B1): Also known as UMTS Band I, this standard frequency for LTE ensures compatibility and widespread use.
  • LTE-FDD 2600 MHz (B7): Operating in the 2600 MHz range, this band contributes to increased capacity and efficient data transfer.


In addition to LTE-FDD bands, LTE also operates in the Time Division Duplex (TDD) mode across various frequency bands.

  • LTE-TDD 1900 MHz (B39): This TDD band contributes to increased capacity, especially in environments with high user density.
  • LTE-TDD 2300 MHz (B40): Operating in the 2300 MHz range ensures efficient data transfer and connectivity.
  • LTE-TDD 2500 MHz (B41): This TDD band enhances connectivity, especially in areas with high demand for data services.
  • LTE-TDD 2600 MHz (B38): Operating in the 2600 MHz range, this TDD band ensures increased capacity and efficiency in data transmission.

5G NR Overview

5G NR marks a paradigm shift in mobile networks, introducing a new era of speed, responsiveness, and connectivity. Developed by the 3GPP, it serves as the cornerstone of 5G networks, defining the air interface standards that enable the seamless communication of a myriad of devices. oneplus nord 30 5g full review

Frequency Ranges of 5G NR

FR1 (Sub-6 GHz) and FR2 (Above 24 GHz)

5G NR operates in two distinct frequency ranges, each offering unique advantages.

  • FR1 (Sub-6 GHz): In this frequency range, 5G NR utilizes bands below 6 GHz, incorporating some bands traditionally used by previous standards. Bands such as 600 MHz (n71), 700 MHz (n12), 850 MHz (n5), 1700 MHz (n66), 1900 MHz (n2, n25) contribute to extended coverage and reliability.
  • FR2 (Above 24 GHz): Operating above 24 GHz, this frequency range provides shorter range but higher available bandwidth. Bands like 2500 MHz (n41), 2600 MHz (n38), 3500 MHz (n78), and 3700 MHz (n77) in this range unlock the potential for ultra-fast, high-capacity connections.

Diversity in Bands and 5G NR

Variety in 5G-FDD and 5G-TDD Bands

5G NR embraces a variety of Frequency Division Duplex (FDD) and Time Division Duplex (TDD) bands, ensuring adaptability and efficiency across diverse environments.

  • 5G-FDD Bands: Ranging from 600 MHz (n71) to 1900 MHz (n25), these bands contribute to widespread coverage and compatibility with existing standards.
  • 5G-TDD Bands: From 2500 MHz (n41) to 3700 MHz (n77), these TDD bands offer shorter range but higher bandwidth, catering to scenarios with high data demand and density.

Harnessing 4×4 MIMO Technology

4×4 MIMO

Adding to the prowess of 5G NR is the implementation of 4×4 MIMO (Multiple Input Multiple Output) technology. This advanced antenna configuration enhances data speeds and network efficiency, ensuring a robust and responsive 5G experience.

Mobile network technologies and bandwidth

In the intricate dance of modern communication, the threads that bind devices within mobile networks are woven through the evolution of various network technologies. Each generation brings a unique set of capabilities, offering different bandwidths that shape the way we connect. This article serves as a compass, guiding you through the diverse landscape of mobile network technologies.

The Evolutionary Tapestry of Mobile Networks

Understanding Mobile Network Technologies

Mobile networks have traversed through different generations, each marked by significant advancements in data bandwidth and communication capabilities. The key players in this evolution include:

  • EDGE (Enhanced Data rates for GSM Evolution): An enhancement of GSM technology, EDGE elevates data transfer rates, enhancing the efficiency of mobile communication.
  • GPRS (General Packet Radio Services): Building on GSM, GPRS introduces packet-switched data transmission, offering faster and more cost-effective data transfer.
  • HSPA+ (High-Speed Packet Access Plus): An evolution of HSPA, HSPA+ boosts data transfer speeds, playing a pivotal role in the transition to higher bandwidth capabilities.
  • LTE (Long-Term Evolution): As the herald of 4G technology, LTE revolutionizes mobile networks by delivering faster data speeds and increased capacity.
  • 5G NSA (5G Non-Standalone): Representing an early phase of 5G deployment, 5G NSA leverages existing 4G infrastructure, introducing higher data speeds and lower latency.
  • 5G SA (5G Standalone): The pinnacle of 5G, Standalone architecture operates independently of 4G networks, unleashing ultra-fast speeds, low latency, and massive device connectivity.

Communication Technologies and Bandwidth

Uplink and Downlink Bandwidth

Each mobile network technology supports specific communication technologies, each with its distinct uplink and downlink bandwidths. These parameters influence the speed and efficiency of data transfer:

  • EDGE: Provides balanced uplink and downlink bandwidth for efficient data transfer, enhancing the overall performance of mobile devices.
  • GPRS: Optimizes uplink and downlink bandwidth for packet-switched data transmission, contributing to faster and cost-effective data transfer.
  • HSPA+: Delivers increased uplink and downlink bandwidth, ensuring faster data speeds and improved performance compared to its predecessor, HSPA.
  • LTE: Significantly boosts uplink and downlink bandwidth, setting the stage for high-speed, reliable data transfer in 4G networks.
  • 5G NSA and 5G SA: Introduce revolutionary uplink and downlink bandwidth, ushering in a new era of connectivity with unprecedented data speeds, low latency, and support for a massive number of devices.

Operating system

At the core of every digital device lies the unsung hero—the operating system. It is the silent conductor orchestrating the symphony of hardware components. This article delves into the essence of the operating system, casting a spotlight on OxygenOS 13, the latest rendition of the digital maestro in the Android orchestra.

An Overview of OxygenOS 13

OxygenOS 13 stands as the latest iteration of the Android operating system, a testament to the relentless pursuit of excellence in user experience and functionality. Let’s unravel the key features that make OxygenOS 13 a digital virtuoso:

  • Android 13 Foundation: OxygenOS 13 is built upon the robust foundation of Android 13, incorporating the latest advancements and security features introduced by the Android ecosystem.
  • Intuitive User Interface: A sleek and intuitive user interface is at the forefront of OxygenOS 13, ensuring that users navigate their digital realm effortlessly.
  • Enhanced Performance: With each iteration, OxygenOS fine-tunes the performance of devices, harnessing the full potential of hardware components for a responsive and lag-free experience.

System on Chip

Qualcomm Snapdragon 695: A Technological Marvel

An Overview of Snapdragon 695 (SM6375)

Qualcomm Snapdragon 695 stands as a testament to the relentless pursuit of innovation in the world of SoCs. Let’s unravel the layers of this technological marvel:

  • CPU Powerhouse: At the heart of Snapdragon 695 lies a robust CPU, the brain of the chip, responsible for executing tasks and ensuring the device’s overall responsiveness.
  • Graphics Excellence: The GPU embedded within Snapdragon 695 elevates the visual experience, handling graphics-intensive tasks with finesse and providing a seamless gaming and multimedia experience
  • Memory Harmony: Efficient memory management is crucial for smooth multitasking. Snapdragon 695 optimizes memory usage, enhancing the device’s ability to handle multiple applications simultaneously.
  • Peripherals and Interfaces Integration: Beyond the core components, Snapdragon 695 seamlessly integrates peripherals and interfaces, fostering connectivity and expanding the range of functionalities.
  • Software Synergy: The synergy of hardware and software within Snapdragon 695 ensures that the chip operates with optimal efficiency, enhancing the overall user experience.

6nm Process Technology: The Technological Marvel

An In-Depth Look at 6nm

At the forefront of cutting-edge chip manufacturing is the 6nm process technology, a marvel of engineering prowess. Let’s explore the key aspects that make 6nm a technological standout:

  • Precision at Scale: The 6nm process technology achieves unprecedented levels of precision, allowing for the densely packed arrangement of transistors and other components on the chip.
  • Enhanced Performance: The reduction in the size of components results in shorter distances for electrical signals to travel, translating into enhanced performance and improved energy efficiency.
  • Power Efficiency: Smaller transistors inherently consume less power, contributing to the overall power efficiency of the chip. This is particularly crucial in the realm of mobile devices where battery life is a key consideration.
  • Thermal Management: The compact design of components in the 6nm process technology aids in efficient thermal management, preventing the chip from overheating during intensive tasks.
  • Future-Ready: As technology advances, the 6nm process technology positions chips for future innovations, ensuring compatibility with evolving demands in the digital landscape.

The Anatomy of CPU Specifications

The specifications of a CPU provide a window into its capabilities and performance. Let’s dissect the specifications of the mobile CPU in question:

  • Architecture: The CPU features a dual-cluster architecture comprising 2x 2.2 GHz ARM Cortex-A78 cores and 6x 1.8 GHz ARM Cortex-A55 cores, orchestrated by the Kryo 660 architecture.
  • Clock Speed: The clock speed represents the rate at which the CPU processes instructions. The ARM Cortex-A78 cores operate at 2.2 GHz, handling more intensive tasks, while the ARM Cortex-A55 cores, with a clock speed of 1.8 GHz, contribute to power-efficient performance in less demanding scenarios.
  • Multi-Core Design: The CPU’s design includes two types of cores, each optimized for specific tasks. The ARM Cortex-A78 cores excel in high-performance computing, while the ARM Cortex-A55 cores focus on efficiency, creating a balanced and versatile processing environment.

Storage Specifications

The storage specifications provide a snapshot of the device’s data-holding prowess. Here’s a breakdown of the details:

  • Capacity: The built-in storage of this device boasts a capacious 128 GB, measured in gigabytes. This signifies the volume of data the device can house, encompassing applications, photos, videos, and more.
  • Technology: The storage operates on UFS 2.2 (Universal Flash Storage) technology, representing the standard that governs the speed and efficiency of data transfer between the storage and other components of the device.

Memory cards

Memory cards come in various types, each characterized by different sizes and capacities. Here’s a breakdown of the supported types:

  • microSD: The smallest in size, microSD cards are versatile and widely used across a spectrum of devices. Despite their diminutive form, they pack a punch in terms of storage capacity.
  • microSDHC: Building on the foundation of microSD, microSDHC (High Capacity) cards offer increased storage capacity, catering to the escalating demands for more space to store high-resolution photos, videos, and applications.
  • microSDXC: Taking it a step further, microSDXC (eXtended Capacity) cards push the boundaries of storage, providing even larger capacities. This makes them ideal for users with substantial storage needs, especially in the era of 4K videos and high-resolution content.


The dimensions of the display extend beyond numerical values, shaping the immersive quality of our visual engagements:

  • Diagonal Size: At 6.72 inches, the diagonal size ensures a generous canvas for content, whether it’s enjoying multimedia or navigating through applications.
  • Width and Height: The approximate width of 2.76 inches and height of 6.13 inches create a harmonious aspect ratio, facilitating a comfortable grip and user-friendly interaction.
  • Aspect Ratio: With a ratio of 2.222:1, the display achieves a balanced composition, ensuring a seamless transition between different types of content.

Resolution and Pixel Perfection

The resolution and pixel density play pivotal roles in defining the clarity and detail of the displayed content:

  • Resolution: At 1080 x 2400 pixels, the display crafts a canvas rich in detail, enhancing the visual fidelity of images, videos, and text.
  • Pixel Density: With 392 pixels per inch (ppi), the pixel density ensures a nuanced and clear representation of information, elevating the overall visual experience.
  • Color Depth: The display boasts a 24-bit color depth, capable of rendering a staggering 16,777,216 colors, ensuring vibrant and true-to-life color reproduction
  • Display Area: Covering an impressive 86.96% of the device’s front area, the display maximizes the immersive experience.
  • Additional Features: From capacitive and multi-touch capabilities to scratch resistance, the display incorporates advanced functionalities. The 2.5D curved glass screen not only enhances aesthetics but also contributes to a smooth and responsive touch experience.
  • Refresh and Sampling Rates: With a 120 Hz refresh rate and a rapid 240 Hz touch sampling rate, the display ensures fluid animations and responsive touch interactions, catering to the demands of modern mobile users.


The Orchestra of Sensors

Types and Purpose Unveiled

Sensors are the silent observers, each with its unique type and purpose, collectively contributing to the device’s prowess. Let’s explore the ensemble of sensors that elevates the capabilities of our mobile devices.

Proximity Sensor: Guardian of Awareness

Intuitive Presence SensingThe proximity sensor stands as the guardian of awareness, detecting the presence of nearby objects. This functionality proves indispensable during calls, where it ensures that the device screen deactivates when in close proximity to avoid accidental touches.

IV. Light Sensor: Adapting to Environments

Adjusting Brilliance for Optimal Viewing

The light sensor is the device’s adaptive eye, measuring ambient light and adjusting the screen brightness accordingly. This not only optimizes power consumption but also enhances the viewing experience in diverse lighting conditions.

Rear camera

The rear camera of a mobile device has evolved beyond mere capturing; it’s a gateway to creativity and visual storytelling. In this exploration, we unravel the technological marvels behind the primary camera of [Mobile Device Model], delving into its sensor, pixel precision, lenses, and an array of features that redefine mobile photography.

Sensor Elegance: Samsung S5KHM6-SX03 ISOCELL

Manufacturer’s Craftsmanship: Samsung S5KHM6-SX03

At the core of [Mobile Device Model]’s rear camera lies the Samsung S5KHM6-SX03 ISOCELL sensor. Manufactured by Samsung, this sensor epitomizes excellence, ensuring every shot is a masterpiece of clarity and detail.

Pixel Precision: 0.64 µm Brilliance

Microscopic Wonders: Pixel Size

With a pixel size of 0.64 µm, [Mobile Device Model] excels in low-light scenarios and offers a broader dynamic range. The larger pixels contribute to superior light absorption, creating images that are rich in detail and vibrancy.

Aperture Mastery: f/1.79 Illumination

Diaphragm Dynamics: Aperture Brilliance

An aperture of f/1.79 graces [Mobile Device Model]’s rear camera, allowing a copious amount of light to enter. This not only enhances low-light performance but also facilitates exquisite bokeh effects, turning every photo into a visual spectacle.

Optical Symphony: Six Lenses Crafting Precision

Precision Ensemble: Number of Lenses

Six lenses compose the optical system of [Mobile Device Model]’s rear camera. This ensemble ensures precision, capturing intricate details and vibrant colors with remarkable clarity. The lenses work in harmony to elevate every shot to a work of art.

Illuminating Shots: LED Flash Brilliance

Lighting the Way: LED Flash Dynamics

For scenes that demand illumination, [Mobile Device Model] relies on a powerful LED flash. Whether it’s a single flash or part of a multi-light setup, the LED flash ensures that every shot is well-lit, preserving the natural essence of the scene.

Resolution Marvel: 108 MP Brilliance

Pixel Richness: Image Resolution Excellence

The rear camera of [Mobile Device Model] astounds with an image resolution of 12000 x 9000 pixels, translating to a colossal 108 megapixels. This extraordinary resolution guarantees that each detail is captured with unparalleled clarity, making every photograph a visual delight.

Cinematic Brilliance: Video Prowess

Moment in Motion: Video Resolution and FPS

Beyond static images, [Mobile Device Model] transforms moments into cinematic brilliance. With a video resolution of 1920 x 1080 pixels and a frame rate of 30 fps, the rear camera captures videos with exceptional clarity and fluidity.

Feature Extravaganza: Elevating Photography

Beyond Basics: Additional Features

[Mobile Device Model]’s rear camera boasts an array of features enhancing its performance:

  • Autofocus
  • Digital Zoom
  • Digital Image Stabilization
  • Geotagging
  • Panorama
  • HDR (High Dynamic Range)
  • Touch Focus
  • Face Detection
  • White Balance Settings
  • ISO Settings
  • Exposure Compensation
  • Self-timer
  • Scene Mode
  • Macro Mode
  • Phase Detection Autofocus (PDAF)
  • Contrast Detection Autofocus (CDAF)

Moreover, the pixel size is optimized through 1.92 μm (9-in-1 pixel binning). The secondary rear camera, dedicated to depth-sensing, features 2 MP with an aperture size of f/2.5 (#2), while the third rear camera, designed for macro shots, boasts 2 MP and an aperture size of f/2.4 (#3).

Front cameras have transformed from mere selfie-takers to powerful imaging tools, dictating modern smartphone design concepts. In this exploration, we delve into the front camera of [Mobile Device Model], dissecting the intricacies of its sensor, pixel precision, aperture, and a host of features that redefine the art of capturing self-portraits.

Sensor Marvel: Sony IMX471 Exmor RS

Manufacturer’s Excellence: Sony IMX471 Exmor RS

At the heart of [Mobile Device Model]’s front camera lies the Sony IMX471 Exmor RS sensor. Crafted by Sony, a renowned name in imaging technology, this sensor promises exceptional clarity and detail for every selfie.

Pixel Elegance: 1 µm Precision

Microscopic Wonders: Pixel Size

With a pixel size of 1 µm, [Mobile Device Model] ensures that each selfie is a masterpiece. The larger pixels excel in low-light conditions, offering a wider dynamic range and recording more light for stunning self-portraits in any setting.

Aperture Brilliance: f/2.4 Illumination

Diaphragm Dynamics: Aperture Brilliance

An aperture of f/2.4 graces [Mobile Device Model]’s front camera, balancing the amount of light entering for optimal exposure. This aperture setting ensures that your selfies are well-lit, vibrant, and showcase your best features.

Image Resolution Excellence: 15.93 MP Brilliance

Pixel Richness: Image Resolution Excellence

The front camera of [Mobile Device Model] captures selfies with extraordinary detail, boasting an image resolution of 4608 x 3456 pixels, equivalent to a remarkable 15.93 megapixels. This high resolution guarantees sharp, clear self-portraits that highlight every nuance.

Cinematic Selfies: Video Prowess

Moment in Motion: Video Resolution and FPS

[Mobile Device Model] extends its selfie capabilities beyond static images. With a video resolution of 1920 x 1080 pixels and a frame rate of 30 fps, the front camera captures dynamic selfies with smooth motion, ensuring your videos are as impressive as your photos.

Feature Extravaganza: Elevating Selfie Photography

Beyond Basics: Additional Features

[Mobile Device Model]’s front camera is not just about capturing selfies; it’s about enhancing your overall experience. Packed with features, including Face Unlock, Face Detection, and Digital Image Stabilization, this front camera ensures that your self-portraits are not just pictures but expressions of your style and personality.


When it comes to [Mobile Device Model], the audio experience is not just heard; it’s felt. In this exploration, we unravel the device’s audio prowess, from its loudspeaker to the intricacies of stereo speakers, earpiece functionality, and the added brilliance of noise cancellation support.

Loudspeaker Marvel: A Gateway to Sounds

Versatile Sound Emission: Loudspeaker

[Mobile Device Model] features a loudspeaker that serves as a gateway to a world of sounds. Whether it’s the crisp tones of a ringtone, the urgency of an alarm, the melody of music, or the clarity of voice calls, the loudspeaker delivers with precision and clarity.

Earpiece Excellence: Beyond Calls

Crystal Clear Conversations: Earpiece

The earpiece in [Mobile Device Model] goes beyond its conventional role in voice calls. It ensures crystal-clear conversations, allowing you to communicate seamlessly. But it doesn’t stop there; the earpiece contributes to the overall audio experience, elevating the quality of all sounds emitted by the device.

Stereo Symphony: Surround Yourself in Sound

Rich Soundscapes: Stereo Speakers

[Mobile Device Model] doesn’t just offer a loudspeaker; it presents a symphony through stereo speakers. Immerse yourself in rich soundscapes, whether you’re enjoying music, watching videos, or engaging in gaming. The stereo speakers create a spatial audio experience that surrounds you with every note, beat, and word.

Noise Cancellation Support: Uninterrupted Audio Bliss

Distraction-Free Listening: Noise Cancellation Support

[Mobile Device Model] understands the importance of uninterrupted audio bliss. With noise cancellation support, the device ensures that external disturbances fade away, allowing you to focus solely on the sounds that matter—be it a crucial call, your favorite music, or the immersive world of noise cancellation support, every element is meticulously crafted to deliver an unparalleled audio journey.


In the age of seamless connectivity, [Mobile Device Model] stands out with its cutting-edge tracking and positioning technologies. From the vast expanses of GPS to the accuracy of A-GPS and the global reach of GLONASS, this device ensures you’re never lost in the world.

GPS: The Global Pathfinder

Beyond Maps: GPS

[Mobile Device Model] comes equipped with the Global Positioning System (GPS), a constellation of satellites that work in harmony to provide precise and real-time location information. Whether you’re exploring uncharted territories or navigating city streets, the GPS in this device serves as your global pathfinder.

A-GPS: Enhancing Precision

Augmented Accuracy: A-GPS

Enhancing the precision of GPS, [Mobile Device Model] incorporates Assisted GPS (A-GPS). This technology utilizes data from nearby cell towers and Wi-Fi networks to expedite GPS satellite connections. The result? Swift and accurate positioning, even in urban canyons or areas with limited satellite visibility.

GLONASS: Global Coverage

Beyond Boundaries: GLONASS

[Mobile Device Model] doesn’t rely solely on GPS; it embraces GLONASS, the Russian satellite navigation system. With GLONASS onboard, your device’s positioning capabilities extend globally, ensuring a robust and reliable experience in diverse geographical landscapes.

Galileo: European Precision

European Excellence: Galileo

Adding another layer to its positioning prowess, [Mobile Device Model] integrates Galileo, the European satellite navigation system. Galileo enhances accuracy, especially in challenging environments, making it an invaluable asset for users who demand precision in their location services.

QZSS: Navigating the Japanese Skies

Sky-High Accuracy: QZSS

For users navigating the Japanese skies, [Mobile Device Model] incorporates the Quasi-Zenith Satellite System (QZSS). This augmentation to GPS provides enhanced accuracy in the Asia-Oceania region, ensuring reliable and precise positioning tailored to local needs.

Wifi and Bluetooth

IWi-Fi: Seamless Wireless Connections

Understanding Wi-Fi

Wi-Fi is the backbone of [Mobile Device Model]’s wireless connectivity, allowing data exchanges between devices within a short range. Leveraging the IEEE 802.11 standards, this device ensures not just connectivity but a seamless experience for users.

IEEE 802.11 Standards

supports various Wi-Fi standards:

  • 802.11a: The first standard in the Wi-Fi family, ensuring robust data transfer.
  • 802.11b: Focused on affordability without compromising on performance.
  • 802.11g: Balancing speed and compatibility for a versatile connection.
  • 802.11n: A significant leap in speed and range, enhancing the overall Wi-Fi experience.
  • 802.11n 5GHz: Utilizing the less congested 5GHz frequency for optimized performance.
  • 802.11ac: The latest standard, offering faster speeds and improved reliability.

Dual Band and Beyond

[Mobile Device Model] goes beyond the basics with dual-band support. Dual band ensures compatibility with both the 2.4GHz and 5GHz frequencies, providing flexibility and minimizing interference.

Wi-Fi Hotspot and Wi-Fi Direct

Turn [Mobile Device Model] into a Wi-Fi Hotspot, sharing its internet connection with nearby devices. Additionally, Wi-Fi Direct enables seamless communication between devices without the need for a wireless access point.

Wi-Fi Display

Experience content on a larger scale with Wi-Fi Display. [Mobile Device Model] allows you to share your screen wirelessly, enhancing collaboration and entertainment.

Bluetooth: Secure Wireless Data Transfer

Embracing Bluetooth Technology

ensures secure wireless data transfer over short distances with its Bluetooth capabilities.

Bluetooth Version 5.1

Equipped with Bluetooth version 5.1 stays at the forefront of technology. This version enhances connection speed, range, connectivity, and device discoverability, providing users with a superior Bluetooth experience.

A2DP and LE Support

supports Advanced Audio Distribution Profile (A2DP) for high-quality audio streaming. Additionally, Low Energy (LE) features contribute to energy-saving practices, ensuring a balance between performance and efficiency.

Headphone jack AND Connectivity

In an era where connectivity is paramount, [Mobile Device Model] stands out by embracing the classic 3.5mm headphone jack. This audio phone connector has been a steadfast companion in mobile devices, and [Mobile Device Model] continues this tradition.

The Significance of the 3.5mm Headphone Jack

acknowledges the universal appeal and convenience of the 3.5mm headphone jack. This widely used audio jack allows users to seamlessly connect their favorite headphones or audio devices, ensuring a versatile and accessible audio experience.

A Commitment to User Preferences

While some devices are moving away from the headphone jack, [Mobile Device Model] understands the value it holds for users. By retaining the 3.5mm headphone jack, [Mobile Device Model] caters to users who appreciate the simplicity and widespread compatibility of this enduring audio connection.

Beyond the Basics: Diverse Connectivity Technologies

Computer Sync

facilitates easy data synchronization with computer sync capabilities. Whether you’re transferring files or managing your device’s content, the computer sync feature ensures a seamless connection between your mobile device and computer.


Empower by using it as a mobile hotspot through tethering. Share your device’s internet connection with other devices, transforming it into a hub for connectivity on the go.

NFC (Near Field Communication)

Unlock a world of possibilities with NFC technology. [Mobile Device Model] supports NFC, enabling users to perform tasks like contactless payments, data transfer, and seamless connections with other NFC-enabled devices.

VoLTE (Voice over LTE)

Experience crystal-clear voice calls with VoLTE support. [Mobile Device Model] ensures that your voice calls are not just audible but also benefit from the superior quality offered by Voice over LTE technology.

oneplus nord 30 5g full review


The batteries in mobile devices vary in capacity and technology, providing the electrical charge necessary for the device’s operation.

  • Capacity:
  • 5000 mAh (milliampere-hours)
  • Type:
  • Li-Polymer (Lithium-ion Polymer)
  • Charger Output Power:
  • 10 V (volts) / 6.7 A (amps)
  • Quick Charge Technology:
  • SuperVooc
  • Features:
  • Fast charging
  • Non-removable

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What are the dimensions and weight of the OnePlus Nord N30 5G?

The dimensions are 76 x 165.5 x 8.3 mm, and the weight is 195 g.

What is the SoC (System on Chip) used in the OnePlus Nord N30 5G?

The OnePlus Nord N30 5G uses the Qualcomm Snapdragon 695 (SM6375) SoC.

How much RAM and storage does the OnePlus Nord N30 5G have?

It has 8 GB of RAM and 128 GB of storage.

What is the battery capacity and type of the OnePlus Nord N30 5G?

The OnePlus Nord N30 5G has a 5000 mAh Li-Polymer battery.

What is the display size, resolution, and type of the OnePlus Nord N30 5G?

The display size is 6.72 inches with IPS technology and a resolution of 1080 x 2400 pixels.

Which operating system does the OnePlus Nord N30 5G use, and what is the camera resolution and video recording capability?

It runs on OxygenOS 13 based on Android 13. The camera resolution is 12000 x 9000 pixels, and it can record videos at 1920 x 1080 pixels with 30 fps.

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