5302 IP Phone User Guide

Customizing your phone

The volume of the handset, speaker, and ringer can be changed using the volume up and down keys on the phone (See number 10 and 11 in the above table). Pressing the volume up or down keychanges the volumes as follows:

yIf the handset is on-hook, the ringer volume is adjusted while the set is ringing for an incoming call.

yIf a paging call is being played, the speaker volume is adjusted.

yIf the handset is off-hook, the handset volume is adjusted.

Call Handling Features

Making and answering calls

Line 1 is the primary line. If an incoming call is received and both lines are idle the call is presented on line

1.If the handset is lifted with both lines idle, line 1 is seized. Only if line 1 has been seized is a second incoming call presented on line 2, or an outgoing call established on line 2. A call made from line 1 or line

2will display the same name and number on the called party’s phone.

On incoming calls, the line LED and Message / Ringing LED will flash.

Make a call

1.Lift the handset.

2.Do one of the following:

yDial the number* or

yPress a programmable key or

yPress (Redial key).

yPress the # key to indicate the end of dialing or wait for the called party to connect.

Answer a call

lift the handset. If a call is received while the handset is offhook, press the ringing line key. If there is an active call on the other line it will automatically be placed on hold.

Place a call on Hold

The Hold key is used to place an active call on hold.

To place a call on Hold:

1. While in an active call press ( Hold key ).

To retrieve a call from Hold:

1.Lift the handset (if on-hook).

2.Press the flashing line key (if off-hook).

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NEC 5302 manual Customizing your phone, Call Handling Features, Making and answering calls

5302 specifications

The NEC 5302 is a pivotal microcontroller that showcases NEC's commitment to providing versatile and high-performance solutions for embedded systems. Released in the early 1980s, the 5302 is a member of the NE6xx series, which has seen widespread adoption across various industries. With a robust architecture, the NEC 5302 has become a foundational component in numerous applications, including automotive, telecommunications, and consumer electronics.

One of the primary features of the NEC 5302 is its 8-bit processing capability, which enables efficient data handling and control operations. The microcontroller operates at a clock frequency of up to 4 MHz, allowing it to execute instructions quickly while maintaining low power consumption. This attribute makes it particularly suitable for battery-operated devices.

The architecture of the NEC 5302 is characterized by a sophisticated instruction set that includes a plethora of arithmetic, logical, and control operations. Its registered-based design enhances the efficiency of data processing by minimizing the need for external bus transactions. Additionally, the microcontroller typically features a direct memory access (DMA) capability, which facilitates faster data transfer and processing without burdensome CPU intervention.

Another noteworthy aspect of the NEC 5302 is its extensive input/output (I/O) versatility. The microcontroller usually supports multiple I/O ports, enabling seamless connectivity to various peripherals. This flexibility allows developers to design systems that can interact with sensors, displays, and communication modules, resulting in rich user experiences and robust functionality.

The NEC 5302 is built with integrated features that enhance its performance. It commonly includes timers, pulse width modulation (PWM) capabilities, and interrupts, which allow for precise timing and responsive interactions in real-time applications. Moreover, the microcontroller’s capability to handle multiple tasks concurrently through its interrupt system enhances its multitasking prowess.

In terms of memory support, the NEC 5302 typically accommodates a range of memory types, including ROM, RAM, and EPROM, thus providing developers with the flexibility to choose the appropriate storage medium for their applications. This adaptability is essential for developing firmware that can be updated as per evolving requirements and standards.

In conclusion, the NEC 5302 represents a significant advancement in the microcontroller landscape, combining a robust architectural design with extensive features that cater to diverse application needs. Its 8-bit architecture, efficient processing capabilities, versatile I/O options, and integrated functionalities solidify its standing as a key player in embedded systems and microcontroller technology.