Headers motherboard: What Are USB Headers On Motherboard? (Complete Guide)

What Are USB Headers On Motherboard? (Complete Guide)

Have you ever wondered what makes the USB ports on your PC function? If you’re using the USB ports on the front panel of your PC, know that they all need to be connected to the motherboard, and the exact port you’re looking for is the USB header.

Basically, they are a set of pins responsible for sending signals to USB ports. However, the back panel USB ports and the extension cards do not have any relation to the USB headers, as they have a direct connection to the motherboard.

If you wish to learn more about USB headers on motherboard, you’re at the right place! In this article, you will learn about what USB headers are, where they are located, their different types, and how you can connect USB ports to them.

Table of Contents

What are USB Headers and Where are They Located?

USB headers on a motherboard are simply the connectors that ensure USB devices are correctly connected. Generally, they are located on the bottom or the right side of the circuit board, depending on the type of USB header.

To locate the USB headers, navigate to your motherboard and find the labels having F_USB, J_USB, FPANEL_USB, F_USB2, or similar indications. If you cannot do that, you can use your motherboard manual to detect where they exactly lie. 

Basically, these are just the different types of USB headers, and they differ in terms of the number of pins and their configuration. We will be discussing all of them in further sections.

Different Types of USB Headers

USB 2.0 vs USB 3.0 vs USB 3.1 vs USB 3.2 Gen 2×2 headers

If you’re building a custom PC, it’s essential to know what USB header types your motherboard supports. 

Well, each of them differs based on pins and the number of USB ports they can support. Although most USB headers can use two USB ports, some only support one.

Moreover, the header types correspond exactly to the USB generations. This simply means that the USB header supports only the kind of USB generation you use. For example, the USB 3.0 can’t be placed in the USB 2.0 header due to size incompatibility. To learn more, here’s a complete guide on the differences between USB 2.0 and USB 3.0.

Generally, USB headers can be classified into four types or generations. In this section, we will discuss each of them in brief.

USB 2.0 Header

USB 2.0 Header

To confirm that you have a USB 2.0 header, you’ll see that the label on the motherboard mentions ‘USB 2.0’. Well, this is one of the most common headers and is located in the bottom part of most motherboards.

Moreover, they have nine pins in a 5×2 arrangement, meaning five pins each on two rows. However, the second row has one pin missing to ensure proper alignment.

USB 3.0 or 3.2 Gen 1 Header

USB 3.0 Header

The USB 3.2 Gen 1 header, previously known as USB 3.0, is identified by the ‘USB 3. 0’ label. They are located on the motherboard’s bottom or right side, depending on various types of motherboard. 

Although they look pretty similar to the USB 2.0 headers, they are comparatively more efficient. Moreover, they have a total of nineteen pins in a 10×2 arrangement, ten pins in the first row and nine in the second. As in the USB 2.0 headers, they also have a pin missing in the second row.

USB 3.1 or 3.2 Gen 2 Header

Like the USB 3.0 header, the USB 3.1 or 3.2 Gen 2 can be located either on the bottom or right side of the motherboard.

While both the previous generations had pin arrangement, the USB 3.1 do not have such a configuration. Instead, they adopt a unique metal casing with no pins sticking out.

USB 3.2 Gen 2×2 Header

Basically, USB 3.2 Gen 2×2 header is the advanced form of the USB 3.2 Gen 2 header. However, one thing to keep in mind is that they are located only on the motherboard’s right side.

Well, the only difference between these two headers lies in the channel. While the USB 3.0, 3.1, and 3.2 headers are single-channeled, the USB 3.2 Gen 2×2 supports dual channels.

Interestingly, they are also called the USB Type-E header and look very identical to the USB Type-A ports. Moreover, they are rare to find and might only be available on modern and costly motherboards.

What’s the Difference Between F_USB and J_USB?

F_USB vs. J_USB

Generally, most motherboard manufacturers use F_USB1 or F_USB2 labels to indicate the front panel USB ports. So, the letter ‘F’ simply indicates ‘Front’ in the USB headers.

However, you may not find the F_USB header on every motherboard. Well, the reason behind this is that some other manufacturers use a different letter to indicate the USB ports. For example, you can find J_USB1, J_USB2, or similar indications on an MSI motherboard.

Moreover, most older PCs used J_USB headers, where J stood for ‘Jumper’, and they only supported half-duplex communication. Unfortunately, this created deadlock, and the USB devices often malfunctioned. 

Later, several manufacturers adopted USBs that supported full-duplex mode and named them F_USB. But even today, you can find J_USB on MSI motherboards that have started supporting full-duplex, and the letter ‘J’ now stands for ‘Jack’.

So, the only difference between F_USB and J_USB is the indications given by different manufacturers. In fact, if you find any other letters, they also could very well mean and do the same work.

Do Back Panel USB Ports Require USB Headers?

Most users prefer the rear panel USB ports that are directly embedded into the motherboard. Thus, you do not need to connect them to the USB headers.

USB Extension Card Doesn’t Require USB Headers

Similarly, if you’ve added an additional USB expansion card, they are directly plugged into the PCIe slot in the circuit board. Thus, you do not require an additional USB header connection for them as well.

How Do I Connect USB Ports to the USB Headers?

Now that you know the different types of USB headers, it’s essential to learn about the internal USB cable. Basically, they are the extension cables that let you attach the USB ports to the USB headers.

In today’s market, you can find two types of internal USB cables – one with a USB header jack and another with individual wires for each pin. Although the working mechanism is the same, the connecting procedure for the latter one is a bit technical. Hence, if the connection isn’t secure, you might encounter errors like ‘USB Device Over Current Status Detected’.

Thus, before moving forward, you need to know what each of the connectors of the internal USB cable stands for, where they need to be placed, and most importantly, why they are used:

• VCC Pin: Voltage Common Collector or VCC is responsible for providing power to the USB ports by carrying a +5 V signal. To identify it, you can either check the pin’s label, which should say “VCC,” or go for the red-colored wire.
• DATA- Pin: This pin lies next to the Vcc pin, and its wire is white. Basically, the DATA- pin is responsible for carrying downstream data connections.
• DATA+ Pin: Like DATA-, the DATA+ pin carries the upstream data connections and ensures proper communication between your computer and USB devices. It’s placed next to the DATA- pin and has green wiring.
• GND Pin: Ground or GND is helpful for the reduction of electromagnetic interference. Well, this is the last pin on the motherboard that sends back the voltage carried by the VCC pin. This ensures no additional current is flown from the USB device to the motherboard and vice versa, preventing short-circuiting.

With the basic idea of the various pins, you can now go through the guides below on connecting both types of internal USB cables to the USB headers.

Connecting Internal USB Cable Jack

If you’re using a USB 3.0 or above, you’ll likely find a jack instead of individual wires. Thus, it’s relatively easy to connect it to the USB header without having detailed knowledge about the pins and their configuration.

Moreover, several USB 2.0 internal cables these days also come with a jack, making the connection quite simple for tech rookies. So, without further delay, let’s jump right into the necessary steps for connecting internal USB header jacks to the USB headers on the motherboard:

1. Firstly, open the PC case using a screwdriver or simply pressing the dedicated button, whichever is applicable.
2. Now, take the front panel USB panel and ensure a proper connection. To do so, simply insert the connector into the port and tighten the connection by pressing both ends.
3. Then, you can place the USB panel in its dedicated slot on the PC case.
4. Next, navigate to your motherboard and locate the USB header by examining the label of the ports. Well, the location of the USB header is either on the bottom or right side, depending on the type we discussed earlier. 
5. Now, take the internal USB cable jack or the female cord and simply insert it into the USB header, ensuring correct pin alignment.
6. Finally, close the case, turn on your PC, and connect a USB device to see if everything works fine.

Note: Some USB panels also have a separate audio port cable. Well, it has a different pin configuration and does not fit in the USB header. Instead, you need to insert it on its dedicated motherboard port labeled F_AUDIO, JAUD1, etc.

Connecting Individual USB Port Wires

If you have an older version of the USB 2.0, you might find a different connector having individual wires for each pin. In such a case, you’ll have to know where each of them needs to be connected. 

If the wires aren’t properly connected, the PC won’t recognize your USB devices, and in the worst case, this may cause short-circuiting. So, please follow the below procedure to get an idea of how to properly connect the individual USB port wires to the USB headers:

1. Carefully open the PC case and ensure proper connection on the USB panel.
2. Then, insert the two VCC wires on the USB Header’s first pin from the left.
3. Next, connect the DATA- wires adjacent to the VCC pins.
4. Now, insert the DATA+ wires next to the DATA-.
5. Then, place the GND wires in the fourth pin, leaving the final one untouched.
6. Close the PC case, and turn on your PC.
7. Finally, connect any USB device, like your keyboard, mouse, or flash drive to check whether they work or not.

Can I Add More USB Headers?

Generally, most motherboards come with a maximum of two or three USB headers. However, if you’re planning to embed an additional USB header, it’s impossible to do so.

Nonetheless, if you have a USB 2.0 adapter supporting a single USB device, you can join two such cables into one. This way, you’ll be able to use two different USB devices using a single USB header:

1. First of all, carefully remove the pins from one of the internal USB cable jacks using a flat tool or a pair of tweezers.
2. Now, carefully insert each pin (VCC, DATA-, DATA-, and GND) in the empty slot of the other cable jack. While doing so, ensure that each of them is correctly aligned on their respective positions based on the colors.
3. Finally, insert the female connector into the USB header, and you should be able to use two different USB devices concurrently.

You can even use a USB hub to access a more significant number of USB devices. Basically, the device takes just one USB port from your PC and provides you with several additional USB ports.

Lastly, you can also add USB extension cards directly to the PCIe slot in the motherboard. This way, you do not have to worry about additional USB headers.

How To Connect Motherboard Front-Panel Headers

The Long-Standard Front-Panel Connector

Inexperienced builders have struggled with the front-panel button/LED combination for as long as build-your-own PCs have existed, but the biggest struggle for experienced builders is watching as those with less experience dole out bad advice. Most of those struggles are needless, since most manufactures have adopted the Intel front-panel header standard first published in the late 1990s.

_{Notice that the Power LED + and – are adjacent on the now-standard header (copyright reserved by author)}

Intel’s header is “keyed” by leaving out a single pin on the upper row, which is opposite of the more-familiar USB 2.0 header which also has nine pins. There’s little to fear here, as LEDs are polarized and simply don’t function if connected backwards. Power and reset buttons bridge their two pins so that polarity isn’t important. After doing several of these, we’ve learned that the text printed on LED connectors usually faces down (ie, the positive pin is usually on the left when the text is facing down).

^{Most FP cables break into individual leads and include a split lead for the power LED for legacy reasons (copyright reserved by author)}

A few builders even luck out to find a single-lead cable on their cases. This is neither a mistake nor a front-panel USB header, and using it does not require a breakout adapter…unless you have an oddball motherboard as we’ll discuss below. The hole that corresponds to the missing pin is normally plugged or blocked out to prevent it from being inserted the wrong way.

_{Some case companies are finally following the grouping laid out by Intel in the 1990s (copyright reserved by author)}

The Short Story

Intel introduced its ATX front-panel connector in an era when most cases were designed to support motherboards of both the ATX and its predecessor, Baby AT form factors. Here’s what an AT cable set looks like:

_{Legacy cables with 3-pin power LED spacing predate the AT form factor, and are no longer primary (copyright reserved by author)}

Baby AT motherboards had a power LED connector with 3-pin spacing, whereas Intel used 2-pin spacing. Because of this, early consumer ATX cases usually came with a Baby AT compatible power LED connector. But that’s all behind us now.

Asus Turned Around And Came Back

Asus was one of the first third-party manufacturers to support Intel’s front-panel header back when the wiring of most cases didn’t. Builders complained and Asus went back to its original non-standard front-panel header, waiting a few years before reintroducing the Intel layout on an extended front-panel connector that also supported legacy cables:

Notice that Intel’s 9-pin pattern is found on the left side of Asus’s current header, and that an additional section to the right of those standard pins now includes a legacy (AT) power LED pin set and a PC Speaker pin set for beep code diagnostics.

Gigabyte Does Extras, Too

Gigabyte uses the Intel standard for the left side of its connector, but with the no-contact pin repurposed for those who need a chassis intrusion header. A one-piece Intel-spec front-panel cable still fits its left side. As with Asus, speaker and redundant power LED pins are positioned to the right of the standard section.

ASRock, MSI…even ECS, EVGA, Colorful, and NZXT!

Every major player has been onboard with Intel’s front-panel header for many years, along with a bunch of lower-volume brands. We even checked some old Sapphire and Abit boards and still found the Intel 9-pin front-panel header! In fact, Supermicro is the only remaining brand we’ve worked with that does not use at least the eight connected pins of Intel’s 9-pin front-panel connector, since the firm decided to put all of its ground pins on a single row.

But what about Biostar?

Biostar introduced Intel’s header in 2020 with its Z490 motherboards. The last well-known brand to make the switch, its X570 motherboards were unfortunately designed before that transition. Since those 2019 models are still being sold as current, we find it important to detail this exception:

Notice that the eight required pins pushed up against the right edge of the connector are in the same order as Intel’s standard header. Normally we’d recommend hanging the right-edge of a one-piece front-panel connector off the right edge of the front-panel header, but Biostar chose to place a plastic frame around its front-panel header.

Using a case with a one-piece connector means hoping that there’s enough space between the plastic frame and front-panel cable to hang it past the right edge. Less attractive options include trimming off that connector’s key pins (which you’ll never get back when you upgrade your motherboard), trimming off the right edge of the plastic shell (voiding your motherboard warranty), or buying a breakout adapter for your front-panel cable.

Other Front-Panel Connections

USB ports and audio jacks are served by the other standardized front-panel connections. From left to right are Gen2 and Gen1 USB3 cables, USB 2.0, and HD-Audio. The Gen2 connector is keyed on the outside with metal tabs on its edges so that if it can’t plug in one way it will the other, the Gen 1 connector has an external plastic key tab in the middle that fits into a corresponding slot on the header’s outer shell. Though they appear similar to a one-piece front-panel connector the nine-pin USB 2.0 and HD-Audio connectors have unique blocked pin placement that prevent these from accidentally being plugged into the wrong header.

_{The number after the 3 doesn’t matter: USB 3.x Gen2 and Gen1, USB 2.0, and HD-Audio (copyright reserved by author)}

TLDR: The reason we usually say “USB3” or “USB 3.x” is that the number following the decimal place is continuously being updated with the new version incorporating previous standards. The newer connector to the left currently supports USB 3.2 Gen2 (10Gbps) and USB 3.2 Gen2x2 (20Gbps) transfers, while the wide connector next to it currently supports USB 3.2 Gen1 (5Gbps per port). We expect the “generation” label to remain consistent even after these are added to the next USB Implementers Forum (USB-IF) spec. Consistency is a rare commodity in the USB industry!

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Motherboard MSI PRO B650-P WIFI

• Chipset:
  AMD® B650
• Board size:
  ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

215. 90
€
/ PCS.

In stock

SMART LEASING

Motherboard MSI PRO Z690-P DDR4

• Chipset:
  Intel® Z690
• Board size:
  ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

217.90
€
/ PCS.

SMART LEASING

New

ASRock Z79 Motherboard0 PG Lightning/D4

• Chipset:
  Intel® Z790
• Board size:
  ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

149. 76
€
/ PCS.

SMART LEASING

Motherboard Gigabyte B660 GAMING X DDR4 (rev. 1.0)

• Chipset:
  Intel® B660
• Board size:
  ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

206.56
€
/ PCS.

SMART LEASING

Motherboard Asus TUF GAMING B660M-PLUS WIFI D4

• Chipset:
  Intel® B660
• Board size:
  Micro-ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

197. 10
€
/ PCS.

SMART LEASING

Product Information Sheet

Motherboard MSI PRO B660M-A WIFI DDR4

• Chipset:
  Intel® B660
• Board size:
  Micro-ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

189.90
€
/ PCS.

SMART LEASING

Product Information Sheet

MSI B660M-A WIFI DDR5 motherboard

• Chipset:
  Intel® B660
• Board size:
  Micro-ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

173. 00
€
/ PCS.

SMART LEASING

Motherboard Asus PRIME B550M-A WIFI II

• Chipset:
  AMD® B550
• Board size:
  Micro-ATX
• Processor socket type:
  AM4
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

145.90
€
/ PCS.

SMART LEASING

Motherboard MSI B560M PRO-DVH WIFI MotherBoard

• Chipset:
  Intel® B560
• Board size:
  Micro-ATX
• Processor socket type:
  LGA 1200
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

156. 60
€
/ PCS.

SMART LEASING

Asus ROG STRIX B450-F Gaming II motherboard

• Chipset:
  AMD® B450
• Board size:
  ATX
• Processor socket type:
  AM4
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

164.90
€
/ PCS.

SMART LEASING

Motherboard ASRock B550 PG Riptide

• Chipset:
  AMD® B550
• Board size:
  ATX
• Processor socket type:
  AM4
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

268. 50
€
/ PCS.

In Stock

SMART LEASING

Product Information Sheet

MSI PRO Z690-A WIFI DDR4 Motherboard

• Chipset:
  Intel® Z690
• Board size:
  ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

178.80
€
/ PCS.

SMART LEASING

Motherboard MSI Z490-A PRO

• Chipset:
  Intel® Z490
• Board size:
  ATX
• Processor socket type:
  LGA 1200
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128 GB

Delivery

Pickup

519. 00
€
/ PCS.

SMART LEASING

New

Asus ROG STRIX Z790-I GAMING WIFI motherboard

• Chipset:
  Intel® Z790
• Board size:
  Mini-ITX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  64GB

Delivery

Pickup

1,399.00
€
/ PCS.

SMART LEASING

New

Motherboard Asus ROG MAXIMUS Z790 EXTREME

• Chipset:
  Intel® Z790
• Board size:
  E-ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

369. 55
€
/ PCS.

SMART LEASING

New

Asus ROG STRIX B650E-F GAMING WIFI motherboard

• Chipset:
  AMD® B650
• Board size:
  ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

329.00
€
/ PCS.

SMART LEASING

New

Motherboard ASRock Z790 LIVEMIXER

• Chipset:
  Intel® Z790
• Board size:
  ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

296. 90
€
/ PCS.

SMART LEASING

New

ASRock Z790M-ITX WiFi Motherboard

• Chipset:
  Intel® Z790
• Board size:
  Mini-ITX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  64GB

Delivery

Pickup

349.00
€
/ PCS.

SMART LEASING

New

Motherboard Gigabyte B650 AORUS PRO AX

• Chipset:
  AMD® B650
• Board size:
  ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

329. 00
€
/ PCS.

SMART LEASING

New

Motherboard MSI MPG B650 EDGE WIFI

• Chipset:
  AMD® B650
• Board size:
  ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

369.00
€
/ PCS.

SMART LEASING

New

Product Information Sheet

Motherboard MSI MPG B650 CARBON WIFI

• Chipset:
  AMD® B650
• Board size:
  ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

549. 00
€
/ PCS.

SMART LEASING

New

Motherboard Asus ProArt X670E-CREATOR WIFI

• Chipset:
  AMD® X670
• Board size:
  ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

349.00
€
/ PCS.

SMART LEASING

New

Motherboard Asus TUF Gaming Z790-PLUS D4

• Chipset:
  Intel® Z790
• Board size:
  ATX
• Processor socket type:
  LGA 1700
• RAM type:
  DDR4
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

639. 00
€
/ PCS.

SMART LEASING

Motherboard Asus ROG CROSSHAIR X670E GENE

• Chipset:
  AMD® X670E
• Board size:
  Micro-ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  64GB

Delivery

Pickup

789.00
€
/ PCS.

SMART LEASING

New

Motherboard Gigabyte X670E AORUS XTREME

• Chipset:
  AMD® X670
• Board size:
  E-ATX
• Processor socket type:
  AM5
• RAM type:
  DDR5
• Maximum amount of random access memory (RAM):
  128GB

Delivery

Pickup

859.