Safe Charging—Secure your devices with the Plugable USB-MC1, now available in a 5-pack (USB-MC1-5X). Charge safely with these data blockers and ensuring faster, consistent charging from any USB port
Peace of Mind—Shield your data with Plugable's USB-MC1-5X, the compact, easy-to-use juice jacking data blocker. USB write blocker 5-pack so you can prevent unauthorized data access and device breaches at any USB port on all of your devices
Faster Charging—Computer, and other USB ports often charge devices at .5A with a normal data cable. A data blocker for cell phone and USB devices allows for charging at 1A or more for up to 2x faster charging even when the computer is off or not connected
Compact and Travel-Ready—The USB power only adapter is small enough to fit in your pocket, or with your other travel accessories. Perfect for peace of mind on the go charging at airports, coffee shops, libraries, and any place with public USB ports
2-Year Coverage, Lifetime Support—Every Plugable product, including this USB Data Blocker, is covered against defects for 2 years and comes with lifetime support. If you ever have questions, contact our North American-based team - even before purchase
Charge safely anywhere with Plugable USB-MC1-5X data blocker USB adapters, your pocket-sized cybersecurity tools. This compact adapter ensures public USB ports are secure charge points, shielding you from data theft. It's tiny in size, but mighty in defense. This 5-pack is ideal for jet-setters needing a quick power-up at airports, cafés, and anywhere you might find yourself. Keep one with all of your devices, or pass them out to your team.
The Plugable USB data blocker adapter uses a safe, IC-free design by adding a series of resistors in between the data lines to allow for up to 1A charging. So whether it's to fend off juice jacking or to simply boost your battery, the USB-MC1-5X has your back. Peace of mind and faster charging in one little adapter.
Protect your devices
Juice Jack Defender
Data blocking usb adapter prevents data theft by blocking data exchange and only allowing charging
Charge Up To
2x Faster
Allows charging at 1A instead of .5A in some instances
A: Juice jacking can occur when a public USB charging port has been compromised to access data on a device, instead of charging.
A: The USB-MC1 physically cuts off the data transfer functionality of your device’s USB port leaving only the charging functionality. This provides a secure avenue for charging only in any USB port, even if it has been compromised
A: In some cases such as rental cars, you may wish to charge your phone without syncing your media and contact information to the car.
A: Yes. The USB-MC1 stops data transfer via the USB port to charge only and does not affect Wi-Fi or Networking data usage.
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This is the standard USB connection that most computers offered prior to the introduction of USB Type-C (USB-C). Even after the introduction of USB Type-C, this is still quite common.
It can provide data transfer rates up to the USB 3.1 Gen 2 (10 gbps) specification depending on the host and device, but does not directly support video in the way that USB-C Alternate Mode does. This limitation makes DisplayLink USB graphics adapters and docking stations ideal on systems that do not have USB-C, or in instances where more displays are needed beyond available video outputs of a PC.
This type of connection comes in a couple different styles depending on whether USB 3.0 and higher transfer rates are supported (bottom graphic). Usually this type of connection is used to plug into USB devices that do not have a fixed cable connected, such as USB docking stations, USB hubs, printers, and others.
One of the first connectors for charging a smartphone, wireless game controller (such as the Sixaxis and DualShock 3), and other small devices such as external hard drives. Not commonly used today, but is still used in some cases. Most devices using USB Mini B are using USB 2.0, though a USB 3.0 variant does exist. This specification also added USB On-The-Go (OTG) functionality, though it is more commonly implemented with Micro USB.
A smaller connector that serves many of the same uses as the Mini B connector, with added optional features such as Mobile High-Definition Link (MHL) to allow devices like smartphones to output video to larger displays without requiring a dedicated port for video output.
The larger variant of USB-B is most commonly used for external hard drives for higher 5Gbps transfer rates.
The most recent USB connection, USB Type-C (USB-C), represents a major change in what USB can do. The connector is smaller, can be connected in two orientations, is able to carry substantially more power and data, and can directly carry video signals of multiple types (HDMI, DisplayPort, etc.) Intel has also adapted the USB-C connector for use with Thunderbolt 3 and Thunderbolt 4.
It is important to note that while all Thunderbolt 3 and Thunderbolt 4 connections are USB-C, not all USB-C connections can be used with Thunderbolt 3 or Thunderbolt 4 devices.
Unfortunately Plugable products do not support the Apple SuperDrive.
The Apple SuperDrive has stringent power requirements that can only be met by directly connecting the SuperDrive to your host laptop. As a result at this time Apple recommends only using their USB-C adapter cables. You can find more information on that here → How to connect the Apple USB SuperDrive
If you have purchased a Plugable product to use with your Apple SuperDrive, and would like some additional assistance please do not hesitate to reach out. You can do so by emailing support@plugable.com, or going to Plugable.com/Support.
The original USB 2.0 specification limited the power that could be drawn from any USB port to 500mA. This is plenty to charge smaller batteries reasonably quickly, but for larger batteries, a higher wattage solution is needed. Though this limit was increased to 900mA with the advent of SuperSpeed USB 3.0, most battery-powered devices were left wanting, either charging at a very slow rate or "treading water". Over time, these limitations drove device makers to come up with novel ways to draw more than the allowed current from standard USB ports, typically accomplished by signaling to the devices along the data lines that it’s okay to draw current at a higher rate.
Regrettably, there wasn’t a widely-adopted standard, so not all ports and devices spoke the same language. To make the situation even more frustrating for end-users, there wasn’t much public discussion or documentation about these signals.
A quick note about power and charging: It is up to the device attached to the charger to decide if, and how quickly to charge. Either based upon the charging signal it receives from the charger that it may use as a guideline, or if the device does not utilize charging signals, it will charge by drawing as much power as it possibly can unregulated. Some "dumb" devices will overload a standard USB port and may cause the port to temporarily cease functioning (until the port is reset) or may cause permanent damage. It is also important to note that chargers do not "push" power to a device, rather, devices "pull" power as needed. If you have a USB device that calls for 500mA of current, connecting it to say a 2.4A (2400mA) USB charging port will not damage it, the device will only draw as much power as needed.
USB Battery Charging Standard
Some devices support the USB Battery Charging (BC 1.1/1.2) standard, but that support is usually undocumented. Charging behavior is often learned through trial-and-error. With the addition of BC 1.2, the USB standard included three port types.
Standard Downstream Port (SDP) - Data-only port with no special charging capabilities. Provides data connectivity and the standard 500mA to downstream devices.
Charging Downstream Port (CDP) - Simultaneous USB data connectivity and high-current charging. Provides up to 1.5A to downstream devices. Has a charging detection phase that triggers device charging, then switches over to data mode after charging has been established.
Dedicated Charging Port (DCP) - Charging-only port with no data connection. Provides up to 1.5A to downstream devices. This signal simply shorts the data D+ and D- lines.
Proprietary Signals
Many manufacturers created their own DCP signals to either provide higher charging rates or only charge from “authorized” chargers. iPads, for example, can draw up to 2.4A when connected to an Apple computer or Apple charger, but they will not charge at all when connected to a regular USB port.
Apple
Apple was among the first manufacturers to create their own charging signals to meet the needs of their power-hungry mobile devices.
Apple 2.4A: 2.7V D+, 2.7V D-
Apple 2.1A: 2V D+, 2.7V D-
Apple 1A: 2.7V D+, 2V D-
Apple 500mA: 2V D+, 2V D-
Signal
D+ Volts
D- Volts
Apple 2.4A
2.7V
2.7V
Apple 2.1A
2V
2.7V
Apple 1A
2.7V
2V
Apple 500mA
2V
2V
Samsung
Many legacy Samsung devices use the standard BC 1.2 charging standard for DCP, CDP, and SDP modes. Even older devices often used a proprietary Samsung DCP signal (1.2V D+, 1.2V D-)
Qualcomm Quick Charge (QC) 1/2/3
Legacy Qualcomm QC chargers are capable of outputting much higher power than standard USB chargers. These signals are specifically designed to work with mobile devices containing Qualcomm Snapdragon SoC chips. This standard is often re-branded by manufacturers for marketing purposes, but the standard behind these technologies is Qualcomm QC. A few well-known rebrands of Qualcomm QC are listed below. Currently, Plugable does not offer any QC devices.
Samsung Adaptive Fast Charger
Oppo Super VOOC
OnePlus WarpCharge (Note: There are several implementations of WarpCharge that have evolved with new devices, some being fully OnePlus proprietary offering up to 65W.)
Huawei SuperCharge
QC chargers output various voltages based on the signals sent over the data lines from the powered device.
Output Volts (Vcc)
D+ Volts
D- Volts
5V
0.6V
GND
9V
3.3V
0.6V
12V
0.6V
0.6V
20V
3.3V
3.3V
"Smart" Charging
Smart chargers contain a charging controller chip that attempts to detect the ideal signal for the attached downstream device. Once the ideal signal is detected, the charger will stop cycling through signals and the powered device will start charging.