Board Mount PCB Header, Wire Housings, Pin headers, Wire Socket Connectors

DT Series 2 Position Single Row Male Pin Grey Automotive Connector

https://www.futureelectronics.com/p/interconnect--pin-and-socket-connectors--header-plug-board-mount/bm04b-srss-tb-lf-sn-jst-4527065

Angled pin headers, Pin Connector, Board Mount PCB Header, PCB header plug

BM04B Series 1 mm Pitch 4 Position SMT Single Row Top Entry Shrouded Header

Leftovers & layout - WLED board revision A completed!

Sunday night, Babyada went to bed early, so we finished the capture and layout of our WLED board. Thanks to all the suggestions, we were able to implement quite a few!

For power, use USB C PD with switch-select or DC up to 24V; they are diode-OR'd together with PMEG3050

https://www.digikey.com/short/zv22b0pq

into a massive 5A 24V fuse

https://www.digikey.com/short/43qwwtwm

For the 5V regulator, we picked NCP718ASN500T1G

https://www.digikey.com/short/bb9ncc0n

- it's linear, but we don't need a lot of current at 5V. For 3.3V, we went with our trusty TPS54202

https://www.digikey.com/short/c1wnnf94

Upon request, we kept the ICS-43434 I2S microphone

https://www.digikey.com/short/28zwrrhz

and added an IR 38KHz receiver. For external connectivity, there's an ADC/DAC/GPIO #27 breakout on a JST SH 3-pin and I2C on a StemmaQT/Qwiic 4-pin.

We also added a 2x3 breakout header with 3V, GND, and 3 more GPIO so you could connect an external microphone, IR receiver, buttons, or rotary encoder. The terminal blocks have three 5V level-shifted outputs with 100 ohm in-line resistors and power/ground pairs for each. If you need just one more LED strand, the fourth 5V signal is on the 2x3 block.

Rounding out the design are four mounting holes, a reset button, GPIO #0 user button, GPIO LED, and an individual NeoPixel, which could be useful for testing. It's still pretty small, 2" x 1.3". With an ESP32-Mini module, we can pick a PCB or wFL antenna port, and it's an easy swap to make it use an ESP32-Pico, which has 2MB PSRAM.

Whatcha think - anything else we should add or watch out for?

"Why Wire-to-Board Connectors Matter in Today's Tech Landscape"

In the ever-evolving landscape of electronics and electrical engineering, wire-to-board (WTB) connectors are fundamental components that provide a secure, efficient link between a set of discrete wires and a printed circuit board (PCB). Despite their small size, these connectors are indispensable in a wide range of applications—from consumer electronics and automotive systems to industrial machinery and telecommunications.Get more news about Wire-to-board Connector,you can vist our website!

What Are Wire-to-Board Connectors? Wire-to-board connectors are used to route electrical signals or power from individual wires onto a printed circuit board. Unlike board-to-board connectors that facilitate connections between PCBs or wire-to-wire connectors that link individual wire sets, WTB connectors interface directly between a cable harness and the board, typically through soldering or press-fit terminals. This facilitates modular design, ease of maintenance, and scalable manufacturing.

They consist of two primary components: the plug (housing the wires) and the receptacle or header (mounted on the PCB). These connectors are available in various pitches (the center-to-center spacing between pins) and configurations (vertical or right-angle orientations), making them adaptable for a variety of design constraints and spatial limitations.

Key Features and Considerations Designers and engineers often evaluate several critical factors when selecting WTB connectors:

Current and Voltage Ratings: Depending on the application, connectors must meet safety and performance thresholds.

Pitch Size: Fine-pitch connectors (≤1 mm) allow for compact design, while larger pitches offer greater robustness.

Locking Mechanisms: Latch or friction locks ensure secure connections that resist vibration or accidental disconnection.

Material and Plating: Contact materials, often copper alloys with gold or tin plating, influence conductivity and longevity.

Environmental Resilience: Some WTB connectors are designed for harsh environments with resistance to moisture, dust, or high temperature.

Applications Across Industries The versatility of wire-to-board connectors is reflected in their widespread use across diverse industries:

Consumer Electronics: Used in smartphones, laptops, and wearable devices for internal signal and power connections.

Automotive: Essential for infotainment systems, sensors, and electronic control units (ECUs), where compact, vibration-resistant connectors are critical.

Medical Equipment: Connectors must meet stringent reliability and safety standards in devices like diagnostic equipment and patient monitors.

Industrial Automation: WTB connectors facilitate modular assembly and simplify maintenance for sensors, controllers, and interface devices.

Trends and Innovations Modern trends push the boundaries of connector miniaturization and performance. As electronic devices become more compact and sophisticated, the demand for high-density connectors with increased signal integrity and EMI shielding continues to grow. Additionally, some manufacturers are integrating features like surface-mount technology (SMT) compatibility and automated cable termination to streamline production and assembly.

Another key trend is the development of eco-friendly, RoHS-compliant connectors to meet global environmental standards while ensuring high performance. With the rise of Industry 4.0 and the Internet of Things (IoT), wire-to-board connectors are playing an increasingly strategic role in enabling smart, connected systems.

Conclusion Although often overlooked compared to high-profile semiconductors or processors, wire-to-board connectors are vital enablers of modern electronic innovation. Their reliability, precision, and adaptability allow designers to build smaller, more powerful, and more efficient systems. As technology continues to advance, the humble WTB connector will remain a quiet but essential hero in the background—connecting ideas to reality, one circuit at a time.

Global Connector Headers Market: Key trends & Forecast to 2032

Global Connector Headers Market size was valued at US$ 2.95 billion in 2024 and is projected to reach US$ 4.87 billion by 2032, at a CAGR of 6.5% during the forecast period 2025-2032

Connector Headers Market Overview

Connector headers are a type of electrical connector commonly used in printed circuit boards (PCBs) for establishing a secure and standardized connection between components. These connectors consist of a row (or multiple rows) of metal pins that are inserted into matching sockets, allowing signals or power to pass between different elements of an electronic system.

Typically mounted directly onto the PCB, connector headers are essential for ensuring efficient signal transmission and providing physical support for detachable connections. They come in various configurations, including single-row and double-row headers, and can be customized for different pin counts, pitches, and orientations (vertical or right-angle).

These connectors are widely used in sectors like automotive, consumer electronics, medical devices, industrial control systems, and more. They are vital in applications that demand compact design, ease of maintenance, and modularity in circuit design.

Their adaptability, low cost, and compatibility with automated assembly processes make connector headers a fundamental component in modern electronics manufacturing.

This report provides a deep insight into the global Connector Headers Market, covering all its essential aspects. This ranges from a macro-overview of the market to micro details of the market size, competitive landscape, development trend, niche market, key market drivers and challenges, SWOT analysis, value chain analysis, etc.

The analysis helps the reader to shape the competition within the industries and strategies for the competitive environment to enhance the potential profit. Furthermore, it provides a simple framework for evaluating and assessing the position of the business organization. The report structure also focuses on the competitive landscape of the Global Connector Headers Market. This report introduces in detail the market share, market performance, product situation, operation situation, etc., of the main players, which helps the readers in the industry to identify the main competitors and deeply understand the competition pattern of the market.

In a word, this report is a must-read for industry players, investors, researchers, consultants, business strategists, and all those who have any kind of stake or are planning to foray into the Connector Headers Market in any manner.

Get Full Report : https://semiconductorinsight.com/report/global-connector-headers-market/

Connector Headers Key Market Trends  :

Rising Demand in Automotive Sector: Increasing use of connector headers in electric vehicles and advanced driver-assistance systems (ADAS) is fueling market growth.

Miniaturization of Electronics: The trend toward smaller and more compact consumer electronics is driving demand for miniaturized connector headers.

Growth in Medical Devices: The expanding healthcare industry is adopting connector headers in medical equipment, boosting the market significantly.

Regional Expansion in Asia-Pacific: Asia-Pacific, particularly China and South Korea, is emerging as a major production and consumption hub.

Technological Advancements: Innovations in materials and design, such as high-speed and high-density connectors, are improving product efficiency.

Connector Headers Market Regional Analysis :

North America:Strong demand driven by EVs, 5G infrastructure, and renewable energy, with the U.S. leading the market.

Europe:Growth fueled by automotive electrification, renewable energy, and strong regulatory support, with Germany as a key player.

Asia-Pacific:Dominates the market due to large-scale manufacturing in China and Japan, with growing demand from EVs, 5G, and semiconductors.

South America:Emerging market, driven by renewable energy and EV adoption, with Brazil leading growth.

Middle East & Africa:Gradual growth, mainly due to investments in renewable energy and EV infrastructure, with Saudi Arabia and UAE as key contributors.

Connector Headers Market Segmentation :

The research report includes specific segments by region (country), manufacturers, Type, and Application. Market segmentation creates subsets of a market based on product type, end-user or application, Geographic, and other factors. By understanding the market segments, the decision-maker can leverage this targeting in the product, sales, and marketing strategies. Market segments can power your product development cycles by informing how you create product offerings for different segments.

Market Segmentation (by Application)

Automobile

Medical

Consumer Electronics

Other

Market Segmentation (by Type)

Double Connector Header

Single Connector Header

Key Company

TE Connectivity

Molex

Amphenol-FCI

Samtec

Precidip

Hirose Electric

Harwin

Weidmuller

MPE-GARRY

Panasonic

AVX

3M

Eledis

Elektron Technology

Interplex

Drivers

Increasing Use in Automotive Applications The growing production of electric and hybrid vehicles is driving demand for reliable connector headers, essential for battery management and infotainment systems.

Expanding Consumer Electronics Market The surge in smartphones, laptops, and wearable devices boosts the need for compact and durable connector headers.

Industrial Automation Growth Automation and robotics require efficient connectors for seamless communication between components, enhancing market growth.

Restraints

High Manufacturing Costs The cost of raw materials and complex manufacturing processes may limit market expansion, especially for high-performance connectors.

Supply Chain Disruptions Global supply chain issues, including raw material shortages, can cause delays and increased costs in production.

Stringent Regulatory Standards Compliance with safety and environmental regulations can pose challenges to manufacturers, impacting product development.

Opportunities

Emerging Markets in Asia-Pacific Rapid industrialization and electronics manufacturing in countries like India and China present new growth avenues.

Development of Smart Devices Rising adoption of IoT devices and smart infrastructure increases demand for advanced connector headers.

Sustainable and Eco-friendly Products Growing consumer preference for environmentally friendly components offers opportunities for innovation in biodegradable and recyclable connectors.

Challenges

Intense Competition Among Manufacturers Market fragmentation and aggressive pricing strategies make it challenging to maintain profitability.

Technological Complexity Meeting the evolving technical demands of high-speed data transmission and miniaturization requires continuous R&D investment.

Quality and Reliability Concerns Ensuring long-term durability and performance under harsh conditions remains a challenge for many manufacturers.

Get A Sample Report : https://semiconductorinsight.com/download-sample-report/?product_id=96472

Key Benefits of This Market Research:

Industry drivers, restraints, and opportunities covered in the study

Neutral perspective on the market performance

Recent industry trends and developments

Competitive landscape & strategies of key players

Potential & niche segments and regions exhibiting promising growth covered

Historical, current, and projected market size, in terms of value

In-depth analysis of the Flash Memary Market

Overview of the regional outlook of the Flash Memary Market:

Key Reasons to Buy this Report:

Access to date statistics compiled by our researchers. These provide you with historical and forecast data, which is analyzed to tell you why your market is set to change

This enables you to anticipate market changes to remain ahead of your competitors

You will be able to copy data from the Excel spreadsheet straight into your marketing plans, business presentations, or other strategic documents

The concise analysis, clear graph, and table format will enable you to pinpoint the information you require quickly

Provision of market value (USD Billion) data for each segment and sub-segment

Indicates the region and segment that is expected to witness the fastest growth as well as to dominate the market

Analysis by geography highlighting the consumption of the product/service in the region as well as indicating the factors that are affecting the market within each region

Provides insight into the market through Value Chain

Market dynamics scenario, along with growth opportunities of the market in the years to come

6-month post-sales analyst support

Customization of the Report In case of any queries or customization requirements, please connect with our sales team, who will ensure that your requirements are met.

Related Reports :

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Wire mount sockets, PCB Header, board mount headers, header plugs

DEUTSCH 6 Position Rectangular Housing Connector Plug Gray

https://www.futureelectronics.com/p/interconnect--pin-and-socket-connectors--header-plug-board-mount/5499922-6-te-connectivity-1136089

PCB header plug, LED chips, Pin headers, Receptacle housing, Pin receptacles

AMP-LATCH 26 Position Through-Hole Dual Row Straight 2.54 mm Pin Header

Festival of Lights - Night #4 1.8" Round TFT with Captouch ✨💡📲👈🎨

To wrap up this year, we're doing 8 days of light-filled designs. We started with the Sparkle Motion Mini

which can drive thousands of shimmering RGB LEDs. Then, we did the Sparkle Motion stick, a USB-pluggable version

. On the third night, a 1.28" round TFT display

. Today, we're doing another TFT display, this time a 360x360 pixel IPS TFT that is also round and comes with a captouch display. we're going with SMT headers for breadboard-friendly usage and EYESPI for a compact connection. since we think folks may want a compact mounting solution, we put some SMT nuts on the back so the display PCB is perfectly round.

https://www.futureelectronics.com/p/interconnect--pin-and-socket-connectors--header-plug-board-mount/5787531-1-te-connectivity-5053790

Socket Connector, Ethernet jacks, IC socket adapters, wire connector pins

6 Position 2.5 mm Pitch Vertical PCB Through Hole Header

The Evolution of Headers & Wire Housings: From Basic to Advanced Models

Headers and wire housings are fundamental components in the electronics industry, serving as the backbone for connecting various electronic circuits. Over the years, these components have evolved significantly, adapting to the increasing demands for more reliable, efficient, and compact connections. This blog will take you through the journey of headers and wire housings, from their basic origins to the advanced models we see today, such as the LPH-16-S-B/1.

The Early Days: Basic Headers and Wire Housings

In the early days of electronics, headers and wire housings were relatively simple. Basic pin headers and sockets were used to make connections between PCBs (printed circuit boards) and other components. These early connectors were bulky and often lacked the reliability needed for more complex circuits.

Pin Headers: Early pin headers were straightforward, consisting of rows of pins that could be soldered onto a PCB. They provided a simple way to connect wires to a board but were prone to issues like poor contact and corrosion.

Wire Housings: Early wire housings were basic plastic shells that held the wires in place. They were functional but often didn't offer much in terms of protection or ease of use.

The Rise of Reliability: Improved Materials and Designs

As electronic devices became more complex, the need for more reliable and durable connectors grew. This led to significant advancements in the materials and designs of headers and wire housings.

Gold-Plated Contacts: One of the major improvements was the introduction of gold-plated contacts. Gold's excellent conductivity and resistance to corrosion made it an ideal choice for enhancing the reliability of electrical connections.

Enhanced Plastic Materials: The use of high-quality, durable plastics improved the robustness of wire housings, providing better protection against environmental factors and mechanical stress.

Miniaturization and Precision: The Modern Era

The trend towards miniaturization in electronics has had a profound impact on the design of headers and wire housings. As devices became smaller and more integrated, connectors needed to follow suit.

Surface-Mount Technology (SMT): The advent of SMT allowed for much smaller and more precise connectors. SMT headers could be mounted directly onto the surface of PCBs, reducing space requirements and improving performance.

High-Density Connectors: Modern headers and wire housings, like the LPH-16-S-B/1, are designed to support high-density connections, making them ideal for applications where space is at a premium.

Advanced Models: LPH-16-S-B/1 and Beyond

Today, headers and wire housings are more advanced than ever, with models like the LPH-16-S-B/1 showcasing the pinnacle of connector technology.

LPH-16-S-B/1 Features: This model boasts a range of features that make it suitable for high-performance applications. It includes gold-plated contacts for excellent conductivity, robust plastic housing for durability, and a compact design that supports high-density connections.

Versatility and Application: The LPH-16-S-B/1 is versatile and can be used in a variety of applications, from consumer electronics to industrial machinery. Its design ensures reliable connections in even the most demanding environments.

The Future of Headers and Wire Housings

As technology continues to evolve, so too will headers and wire housings. Future advancements may include further miniaturization, improved materials for even greater durability, and enhanced designs for easier integration and use.

Smart Connectors: The integration of smart technology into connectors could provide real-time diagnostics and monitoring, further improving the reliability and performance of electronic systems.

Eco-Friendly Materials: With a growing focus on sustainability, future connectors may utilize more eco-friendly materials without compromising on performance.

Conclusion

The evolution of headers and wire housings from basic models to advanced designs like the LPH-16-S-B/1 highlights the significant strides made in connector technology. As electronics continue to advance, these components will remain crucial in ensuring reliable, efficient, and compact connections. By understanding their history and advancements, we can better appreciate the critical role they play in modern electronic devices.

Asus ROG Strix B660 A Gaming WIFI D4 Features: Intel LGA 1700 Socket: Ready for 12th Gen Intel Core, Pentium Gold and Celeron processors Optimal Power Solution: 12+1 power stages with ProCool power connectors, high-quality alloy chokes and durable capacitors to support multi-core processors Optimized Thermal Design: Integrated I/O cover, VRM heatsinks with high conductivity thermal pads, and three onboard M.2 heatsinks High-performance Networking: On-board Intel WiFi 6 (802.11ax) and Intel 2.5 Gb Ethernet with ASUS LANGuard Best Gaming Connectivity: Supports HDMI 2.1 and DisplayPort 1.4 output, three M.2 slots, as well as USB 3.2 Gen 2×2 Type-C Intelligent Control: ASUS-exclusive AI Cooling, AI Networking and Two-Way AI Noise Cancelation to simplify setup and improve performance DIY Friendly Design: M.2 Q-Latch, pre-mounted I/O shield, BIOS FlashBack button and Q-LED Unmatched Personalization: ASUS-exclusive Aura Sync RGB lighting, including one RGB header and three addressable Gen 2 headers Industry-leading Gaming Audio: ALC4080 with Savitech SV3H712 amplifier, along with DTS Sound Unbound and Sonic Studio III Renowned Software: Bundled 60-day free trial of AIDA64 Extreme, and an intuitive UEFI BIOS dashboard ROG Strix B660-A Gaming WiFi D4 offers premium power delivery and optimized cooling to unleash the full force of the latest 12th Gen Intel Core processors. Onboard PCIe 5.0, WiFi 6 and three PCIe 4.0 M.2 slots provide lightning-fast data transfers for an endless variety of scenarios, and ASUS-exclusive intelligent controls to help optimize PC settings. On top of all that, DIY-friendly innovations help simplify the PC building process to get to you up and running smoothly. TEAMED POWER STAGES 12+1 power stages combine high-side and low-side MOSFETS and drivers into a single package, delivering the power and efficiency that the latest Intel processors can take full advantage of. ALLOY CHOKES AND CAPACITORS High-end chokes and durable capacitors are engineered to resist extreme temperatures, enabling performance that exceeds industry standards. PROCOOL POWER CONNECTOR The ASUS ProCool socket is built to exacting specifications to ensure flush contact with the PSU power lines, enabling lower impedance and better heat dissipation. DIGI+ POWER CONTROL The Digi+ voltage regulator module (VRM) is one of the finest in the industry, ensuring ultra-smooth and clean power delivery to the CPU. SIX-LAYER PCB A multi-layered printed circuit board design quickly dissipates heat around the voltage regulators to improve overall system stability and provide the CPU with more overclocking headroom. Two-Way AI Noise Cancelation This powerful ASUS-exclusive utility leverages a massive deep-learning database to reduce background noise from the microphone* and incoming audio while preserving voices. Distracting keyboard clatter, mouse clicks and other ambient noises are removed so you can hear and be heard with perfect clarity while gaming or during calls. Asus ROG Strix B660 A Gaming WIFI D4 AI Cooling ASUS AI Cooling technology automatically manages and controls motherboard-connected fans to ensure optimal settings based on current system load and temperature. AI Networking The proprietary ROG GameFirst VI utility is designed to help all users beginners, experts, and everyone in between optimize network settings to ensure smooth online gameplay. New to this generation, GameFirst VI features AI-enhanced identification and boost technologies to ensure faster and smarter network optimization. Adaptive Intelligence GameFirst VI notes what you’re currently doing and adjusts bandwidth accordingly to ensure smooth online experiences, even when multitasking. OptiMem II OptiMem II technology offers higher clock speeds through trace layout optimizations that significantly reduce signal distance and crosstalk while enhancing memory stability and compatibility. ROG Strix B660-A Gaming WiFi D4 supports up to 128 GB of DDR4 memory across four slots.

WiFi 6 (802.11 ax) Onboard WiFi 6 (802.11ax) supports ultrafast wireless-networking speeds, improved capacity and better performance in dense wireless environments, providing exceptional online gaming experiences. Pair your motherboard with ASUS WiFi 6 routers to fully experience the networking potential of WiFi 6. Intel 2.5 Gb Ethernet Onboard 2.5 Gb Ethernet gives your wired connection a boost, with up to a 2.5x improvement over standard Ethernet connections for faster file transfers, smoother lag-free gaming and high-res video streaming. SupremeFX ROG SupremeFX is a unique blend of hardware and software that provides superior audio. In ROG Strix B660-A Gaming WiFi D4, SupremeFX features the ALC4080 codec to increase playback resolution from 192 kHz to 384 kHz across all channels. The front-panel output is streamed through a highly integrated Savitech amplifier thatands capable of driving of a wide variety of gaming headsets and high-fidelity headphones. Undeniably ROG Strix The ROG Strix B660-A Gaming WiFi D4 will turn heads with a striking silver-white finish that contrasts with a bold Aura RGB-illuminated glitch-effect logo. Meanwhile, parallel strakes and dotted text on the aluminum I/O shroud, M.2 and PCH heatsinks tie the whole aesthetic together and underline the ROG Strix fundamentals of speed, diversity and attitude. M.2 Q-LATCH The innovative Q-Latch makes it easy to install or remove an M.2 SSD without the need for specific tools. The design employs a simple locking mechanism to secure the drive and neatly eliminate traditional screws. CERTIFIED COMPATIBILITY ROG Strix motherboards undergo an extensive certification program to ensure compatibility with the widest range of components and devices. Our Qualified Vendor List (QVL) provides a reference for identifying guaranteed-compatible components and memory. ASUS AIO coolers are also compatible with a wide variety of CPUs, up to and including 12th Gen Intel processors, giving you ultimate flexibility to cool the CPU that fits your needs. THE ROG STRIX ECOSYSTEM AWAITS Level up your game with ROG Strix. Enjoy complementary aesthetics, control and compatibility across AIO coolers, cases, peripherals, and much more. ROG offers more choices than any other brand. UEFI BIOS The renowned ROG UEFI (BIOS) provides everything you need to configure, tweak, and tune your rig. It offers intelligently simplified options for newcomers to PC DIY and more comprehensive features for seasoned veterans. Sonic Studio III ROG Sonic Studio supports HRTF-based (head-related transfer function*) virtual surround for VR headsets, casting an immersive aural landscape that draws you deeper into the action. The intuitive Sonic Studio interface also offers a range of EQ options and one-click presets, allowing you to tailor acoustics to suit personal preferences or the characteristics of your headset. DTS: Sound Unbound dts ROG Strix B660 motherboards are pre-loaded with the DTS Sound Unbound app that envelops you in audio as never before, conjuring whole new levels of immersion for extraordinary gaming and entertainment experiences. By leveraging Windows Sonic spatial technology, DTS Sound Unbound delivers audio in a virtual 3D space putting you right in the middle of the soundscape, where you can sense the location and direction of every gunshot, footstep or other sound in your virtual environment. Stereo Sound: Discrete left and right audio channels enable headphone or two-speaker setup. Surround Sound: Audio is split and served over multiple speaker channels e.g., 5.1 or 7.1 to create an enveloping experience on a single, logical plane. Spatial Sound: A virtual audio sphereand effect creates astonishing 360° immersion with you at the center, where sounds seem to travel in all directions. AIDA64 EXTREME ROG Strix B660 motherboards include an AIDA64 Extreme 60 days free trial. This industry-leading system information tool provides detailed information about installed hardware

and software, and it also provides benchmarks for measuring performance of the entire system or individual components. AIDA64 Extreme includes a monitoring and diagnostics feature to detect and prevent hardware issues. All vital system sensors can be tracked in real time, allowing voltage readings, fan speeds, and temperature information to be displayed on the desktop or sent to dedicated displays or to the OLED panels of ROG AIO liquid coolers*. Armoury Crate Armoury Crate is a software utility designed to give you centralized control of supported gaming products, making it easy to tune the look and feel of your system. From a single intuitive interface, Armoury Crate helps you customize RGB lighting and effects for compatible devices and synchronize them with Aura Sync to create a unified lighting scheme across your system. In addition, Armoury Crateands Fan Xpert4 tool provides comprehensive control over fans, water pumps and all-in-one (AIO) coolers. Asus ROG Strix B660 A Gaming WIFI D4

ASUS ROG STRIX B760-I Gaming WIFI Motherboard Manual

ASUS ROG STRIX B760-I Gaming WIFI

With the ROG Strix B760-I gaming WIFI, a formidable base for your next SFF build, you can let your rig go wild. With its lightning-fast DDR5 memory, future-ready PCIe 5.0 slot, low-latency Wi-Fi 6E networking, and strong VRM and cooling solution, it sets you up for ferocious performance and offers amazing 13th Gen support.

ROG STRIX B760-I Gaming WIFI

M.2 Q-LATCH

It’s simple to insert or remove an SSD from an M.2 slot thanks to the novel Q-Latch. Instead of using a conventional screw to secure the drive, the design uses a simple locking mechanism.

Q-LED

For speedy diagnostics, four onboard LEDs show the power status and pinpoint issues with the CPU, RAM, graphics card, or boot device.

READY-MADE I/O SHIELD

Pre-mounted and polished in a sleek matte black, the proprietary ROG I/O shield makes mounting the motherboard even easier.

Total performance

The ASUS ROG STRIX B760-I Gaming WIFI packs a punch, including an octet of power stages paired with a sizable cooling array to provide all the ferocity of Raptor Lake. The memory slots can support dizzying DDR5 rates, and the PCIe 5.0 slot is ready for the strongest graphics card you can put into your chassis to pack on the FPS.

ASUS ROG STRIX B760 I Gaming WIFI DESIGN POWER

Powerful design enough current is provided by 8 + 1 power stages, each rated at 80A, to easily power the most powerful Intel 13th Gen CPUs through any task. Duty capacitors and alloy chokes superior chokes and robust capacitors are designed to withstand high temperatures, allowing for performance that beyond industry norms.

PCB with eight layers to increase overall system stability, a printed circuit board design with several layers swiftly dissipates heat surrounding the voltage regulators.

ASUS ROG STRIX B760-I Gaming WIFI DDR5

The DDR5 is not an exception in ROG’s long history of exhibiting the quickest memory performance. Now that enthusiast-grade kits have been pushed far beyond 7 GT/s on the ASUS ROG STRIX B760-I Gaming WIFI, it’s possible to achieve even higher speeds with future DIMMs thanks to enhanced signal routing. Expert users may put their skills to the test by adjusting the vast range of tuning options available in the UEFI.

AEMP II

A unique hardware and firmware approach for overclocking generic memory modules is ASUS Enhanced Memory Profile (AEMP). The second edition of AEMP makes use of the PCB trace optimisations of the ASUS ROG STRIX B760-I Gaming WIFI to push frequencies higher than ever before and enables automated tuning of kits during system startup. In a quad-DIMM configuration, AEMP II can even overclock mixed kits, and the extensive library of compatibility now encompasses almost all DDR5 modules that do not have XMP support.

ASUS ROG STRIX B760-I Gaming WIFI

AIR COOLING

Heatsink array VRM two substantial heatsinks with well-placed airflow channels to enhance heat dissipation are positioned above the power solution to support the high-end Intel 13th Gen CPUs.

M.2 Heatsink the front NVMe SSD slot is covered by a large heatsink that helps maintain your drive at ideal temperatures for dependability and continuous performance.

M.2 Backplate underneath the slot is extra bulk to handle the heat load of high-end M.2 SSDs.

Processor fan header CPU coolers can easily access a PWM/DC fan header, which is positioned close to the top of the motherboard. AIO pump fan header self-contained water-cooling installations are connected via a specialised PWM/DC header.

4-PIN fan header a chassis fan header on the ASUS ROG STRIX B760-I Gaming WIFI can automatically identify any PWM or DC fan that is attached to it.

RUNNING AN INTERACTIVE

High-bandwidth USB ports and sophisticated networking adapters let the ROG Strix B760-I WiFi to handle massive traffic, which lets you play games without interruption and provides immersive on-board audio.

PCIE OPERATIONS

With its amazing PCIe 5.0 bandwidth and SafeSlot retention bracket to handle the majority of the newest graphics cards, the x16 expansion slot is future-ready. Fast storage is provided by the two PCIe 4.0 M modules. Two spaces are located to save space: one underneath the front-side heatsink and the other on the rear.

ASUS ROG SRTIX B760 I gaming WIFI networking

ASUS ROG STRIX B760 I gaming WIFI 6E

Utilising recently released 6 GHz spectrum, onboard Wi-Fi 6E technology offers up to seven 160 MHz channels for faster throughput and improved performance in crowded wireless scenarios.

The availability and functionalities of Wi-Fi 6E are contingent upon legal restrictions and its coexistence with 5 GHz Wi-Fi.

Ethernet 2.5 GHz Intel

The many benefits of onboard Intel 2.5 Gbps Ethernet include high-resolution video streaming, quick file transfers, and low-latency gaming.

USB

Many fast USB options are included with the Strix B760-I. There are five USB 3.2-compliant back I/O ports; the quickest is a USB 3.2 Gen 2×2 Type-C connector that supports data transfers of up to 20 Gbps. It is also possible to apply turbo treatment to a chassis port using the USB Gen 3.2 Gen 2 front-panel connection.

AUDIO SUREMEFX

Superior audio is produced by a special fusion of software and hardware called ROG SupremeFX. The S1220A codec is included in the ROG STRIX B760-I Gaming WIFI implementation to enable high-resolution playback up to 32-bit/192 kHz on all channels. The inbuilt Savitech amplifier streams the front-panel output to a range of speakers and headsets with high-fidelity acoustics.

ROG STRIX B760 I Gaming WIFI ACT STYLISHLY

The Strix B760-I’s black shrouds and PCB go well with the majority of goods from the varied ROG ecosystem, adding a pop of polychromatic contrast to your build and giving it a unique look.

ID DESIGN

Clearly a ROG strix the ROG Strix B760-I maintains a low profile in small setups with a vertically mounted graphics card, since only the top of a wavy grid decal is likely to show through. However, if the construction is a little bit larger, two large pastel insignias provide some vibrant flare to the otherwise subtle fascia.

COMPATIBILITY OF COOLER

Since the ROG Strix B760-I shares the same LGA 1700 socket as the Z690 and B660 models, it is compatible with a wide range of current cooling, including all ASUS and ROG AIO options.

ECOSYSTEM

Awaiting is the ROG STRIX ecosystem upgrade your experience with ROG Strix. Take advantage of complementary controls, compatibility, and looks across AIO coolers, cases, peripherals, and much more. Compared to other brands, ROG provides the most options.

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Wire-to-Board Connector Types, cable connectors, electrical wire connectors

DTM Series 2 Position 4.19 mm Pitch Wire to Wire Single Row Receptacle Housing

A full board mount PCB header plug selection with many attributes from several connector manufacturers when looking for board mount header plugs of different sizes and types.

16 Positions Preloaded PCB Right Angle Black Tab contact type Plug Connector

14 Position 4 mm Pitch Triple Row Shrouded Male Pin Header Connector