Motorola 6803578F35 quick start Control your tunes, Make and receive handsfree calls, Make a call

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English

Control your tunes

See figure 1 on page 1

Playback controls on your speaker system can be used when listening to wireless music streaming from a Bluetooth-enabled music device that also provides remote control capabilities (AVRCP).

When remote control capabilities are not supported by your music device, the EQ7 simply acts as a speaker system, and music should be controlled from your music device.

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Short press—play/pause music

Long press—stop music

 

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Short press—skip to previous track

 

Long press—rewind track*

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Short press—skip to next track

 

Long press—fast-forward track*

Ïor 9 Short or long press—decrease or increase volume**

* If your music player supports this feature

**You’ll hear a tone when maximum or minimum volume is reached on your speaker system. The volume setting on your music device may impact volume on your speaker system.

Make and receive handsfree calls

To make and receive calls using the speaker system, a Bluetooth handsfree (HFP) connection must be established with your phone. A handsfree connection with your phone is indicated when the Call button is steadily lit.

Make a call

Using the speaker system to make a call, you can redial the last dialed number or make a voice dial call (if your phone supports this feature). When making a voice dial call, the microphone on the speaker system is enabled, and you hear a prompt from your phone.

Short press—make a voice dial call (you hear a prompt from your phone)

Long press—redial last number

Receive a call

When there’s an incoming call, the Call button flashes on your speaker system, and you hear a ring tone over your speaker system. If wireless streaming music is playing when a call is received, it is paused until the call ends. If music is playing over a wired connection, it is muted when a call is received.

Short press—answer call

à or Ä Long press on either button—reject call

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Contents Motorokr EQ7 Page Page Recycling Mobile Phones and Accessories English European Union Directives Conformance StatementSee figure 1 on WelcomeBefore you begin Connect your speaker system Charge your speaker systemTurn it on & off See figure 4 on Connect wirelessly to 2 devices multipoint connectionConnect with a cable Control your tunes Make and receive handsfree callsMake a call Receive a callPairing Power saving using battery powerAdditional tips While on a callMotorola.com

6803578F35 specifications

The Motorola 68035 microprocessor, specifically the 68035F35 variant, is a member of the renowned Motorola 68000 family, a line of 32-bit microprocessors that has significantly impacted the computing landscape since its introduction in the early 1980s. The 68035 was designed with the aim of enhancing the performance of applications requiring higher processing power while maintaining compatibility with its predecessors.

One of the prominent features of the 68035F35 is its robust architecture, which supports a 32-bit data bus and a 32-bit address bus, allowing for efficient processing and memory addressing. This architecture sets the stage for improved calculation speeds, enabling the chip to handle more complex tasks than earlier models, such as the 68000 and 68020. The 68035F35 operates at a clock speed of 35 MHz, which was quite impressive for its time, ensuring that it could process more instructions per second compared to its predecessors.

In terms of memory support, the 68035F35 can address up to 4 GB of RAM, making it suitable for applications that require significant amounts of memory, such as advanced computing tasks and real-time data processing. The microprocessor supports various memory management techniques, which enhance its ability to multitask and efficiently run multiple applications concurrently.

Another notable characteristic of the 68035F35 is its integrated floating-point unit (FPU), which allows for efficient arithmetic calculations involving real numbers. This is particularly beneficial for applications in scientific, engineering, and graphical computations, where precision and speed are paramount.

The Motorola 68035F35 also features a highly optimized cache architecture, providing fast access to frequently used data and instructions. This caching system improves overall performance and reduces latency, enabling the processor to execute tasks more quickly than processors without such optimizations.

The 68035F35’s architecture also incorporates a set of powerful instruction sets that support both integer and floating-point operations, making it versatile for a wide range of applications. Its support for both single and double precision arithmetic operations further enhances its utility in scientific computing.

In conclusion, the Motorola 68035F35 microprocessor is characterized by its advanced architecture, high clock speed, substantial memory support, integrated floating-point unit, and optimized cache performance. Collectively, these features make it a powerful solution for a variety of processing applications, continuing the legacy of the Motorola 68000 series in the world of computing.