Follow Instructions to Avoid Interference Problems

Turn off your mobile device in any location where posted notices instruct you to do so, such as hospitals or health care facilities.

In an aircraft, turn off your mobile device whenever instructed to do so by airline staff. If your mobile device offers an airplane mode or similar feature, consult airline staff about using it in flight.

Medical Devices

If you have a medical device, including an implantable medical device such as a pacemaker or defibrillator, consult your healthcare provider and the device manufacturer’s directions before using this mobile device.

Persons with implantable medical devices should observe the following precautions:

ALWAYS keep the mobile device more than 20 centimeters (8 inches) from the implantable medical device when the mobile device is turned ON.

DO NOT carry the mobile device in the breast pocket.

Use the ear opposite the implantable medical device to minimize the potential for interference.

Turn OFF the mobile device immediately if you have any reason to suspect that interference is taking place.

Specific Absorption Rate (FCC & IC)

YOUR MOBILE DEVICE MEETS FCC AND IC LIMITS FOR EXPOSURE TO RADIO WAVES.

Your mobile device is a radio transmitter and receiver. It is designed not to exceed the limits for exposure to radio waves (radio frequency electromagnetic fields) adopted by the Federal Communications Commission (FCC) and Industry Canada (IC). These limits include a substantial safety margin designed to assure the safety of all persons, regardless of age and health.

The radio wave exposure guidelines use a unit of measurement known as the Specific Absorption Rate, or SAR. The SAR limit for mobile devices is 1.6 W/kg.

Tests for SAR are conducted using standard operating positions with the device transmitting at its highest certified power level in all tested frequency bands. The highest SAR values under the FCC and IC guidelines for your device model are listed below:

Head SAR

CDMA 1900, Wi-Fi, Bluetooth

1.45 W/kg

 

 

 

Body-worn SAR

CDMA 1900, Wi-Fi, Bluetooth

0.71 W/kg

 

 

 

68Safety, Regulatory & Legal

During use, the actual SAR values for your device are usually well below the values stated. This is because, for purposes of system efficiency and to minimize interference on the network, the operating power of your mobile device is automatically decreased when full power is not needed for the call. The lower the power output of the device, the lower its SAR value.

If you are interested in further reducing your RF exposure then you can easily do so by limiting your usage or simply using a hands-free kit to keep the device away from the head and body. Additional information can be found at www.motorola.com/rfhealth.

European Union Directives Conformance Statement

The following CE compliance information is applicable to Motorola mobile devices that carry one of the following CE marks:

0168

0168

Hereby, Motorola declares that this product is in compliance with:

The essential requirements and other relevant provisions of Directive 1999/5/EC

All other relevant EU Directives

For products that support Wi-Fi 802.11a (as defined in your product information): This device is restricted to indoor use when operating in the 5.15 to 5.25 GHz (802.11a) Wi-Fi frequency band.

The following gives an example of a typical Product Approval Number:

0168 Product

Approval

Number

You can view your product’s Declaration of Conformity (DoC) to Directive 1999/5/EC (to R&TTE Directive) at www.motorola.com/rtte (in English only). To find your DoC, enter the Product Approval Number from your product’s label in the “Search” bar on the website.

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Verizon XT912M, DROID RAZR MAXX manual Specific Absorption Rate FCC & IC, European Union Directives Conformance Statement

XT912M, DROID RAZR, DROID RAZR MAXX, XT912 specifications

Motorola XT912, also known as the DROID RAZR, and its enhanced variant, the DROID RAZR MAXX, are iconic smartphones that played a significant role in the evolution of mobile technology. Launched in late 2011, the XT912 quickly caught the attention of consumers due to its ultra-slim design, which boasted a thickness of just 7.1 mm, making it one of the thinnest smartphones on the market at that time.

One of the standout features of the DROID RAZR was its use of Kevlar material on the back cover, giving it a distinct look while providing added durability. The device also featured Corning Gorilla Glass on the front, enhancing its resistance to scratches and cracks. This combination of materials made the DROID RAZR not just a stylish phone but also a robust one built to withstand the rigors of daily use.

The display was another highlight, sporting a 4.3-inch Super AMOLED advanced display with a resolution of 540 x 960 pixels. This made for vibrant colors and excellent contrast ratios, perfect for multimedia consumption and gaming. Under the hood, the XT912 was powered by a dual-core processor, coupled with 1 GB of RAM, ensuring smooth performance for multitasking and running applications.

In terms of photography, the DROID RAZR came with an 8-megapixel rear camera capable of 1080p video recording, alongside a VGA front-facing camera. This setup catered to users who sought quality images and videos. The device's internal storage started at 16 GB and could be expanded via microSD, allowing users to store ample content.

The DROID RAZR MAXX built on these strengths with an impressive 3,300 mAh battery, significantly enhancing battery life compared to the original model. Users could enjoy extended talk time and media consumption without the constant worry of finding a charger.

The Motorola XT912M, primarily targeted at the Canadian market, shared many of the same features as its predecessors but included specific enhancements to cater to local carrier requirements.

All models ran on Android, providing a customizable and user-friendly interface supported by a wealth of applications available through the Google Play Store. With these qualities, the Motorola XT912, DROID RAZR, DROID RAZR MAXX, and XT912M remain memorable devices in the annals of smartphone history, symbolizing the sleek, powerful designs that continue to influence modern smartphones today.