MT9094 Mitel Networks Corporation, MT9094 Datasheet - Page 4

MT9094

Manufacturer Part Number

MT9094

Description

ISO2-CMOS ST-BUS FAMILY Digital Telephone (DPhone-II)

Manufacturer

Mitel Networks Corporation

Datasheet

1.MT9094.pdf (32 pages)

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MT9094

Overview

The Functional Block Diagram of Figure 1 depicts

the main operations performed within the DPhone-II.

Each of these functional blocks will be described in

the sections to follow. This overview will describe

some of the end-user features which may be

implemented as a direct result of the level of

integration found within the DPhone-II.

The main feature required of a digital telephone is to

convert the digital Pulse Code Modulated (PCM)

information, being received by the telephone set, into

an analog electrical signal. This signal is then

applied to an appropriate audio transducer such that

the information is finally converted into intelligible

acoustic energy. The same is true of the reverse

direction where acoustic energy is converted first

into an electrical analog and then digitized (into

PCM) before being transmitted from the set. Along

the way if the signals can be manipulated, either in

the analog or the digital domains, other features

such as gain control, signal generation and filtering

may be added. More complex processing of the

digital signal is also possible and is limited only be

the processing power available. One example of this

processing power may be the inclusion of a complex

handsfree

electro-acoustic transducers (loudspeakers) require

a large amount of power to develop an effective

acoustic signal. The inclusion of audio amplifiers to

provide this power is required.

The DPhone-II features Digital Signal Processing

(DSP) of the voice encoded PCM, complete Analog/

Digital and Digital/Analog conversion of audio

signals (Filter/CODEC) and an analog interface to

the external world of electro-acoustic devices

(Transducer Interface). These three functional blocks

combine to provide a standard full-duplex telephone

conversation utilizing a common handset. Selecting

transducers for handsfree operation, as well as

allowing the DSP to perform its handsfree switching

algorithm, is all that is required to convert the

full-duplex handset conversation into a half-duplex

speakerphone conversation. In each of these

modes, full programmability of the receive path and

side-tone gains is available to set comfortable

listening levels for the user as well as transmit path

gain control for setting nominal transmit levels into

the network.

The ability to generate tones locally provides the

designer with a familiar method of feedback to the

telephone user as they proceed to set-up, and

ultimately, dismantle a telephone conversation. Also,

as the network slowly evolves from the dial pulse/

DTMF methods to the D-Channel protocols it is

7-48

switching

algorithm.

Finally,

most

essential that the older methods be available for

backward compatibility. As an example; once a call

has been established, say from your office to your

home, using the D-Channel signalling protocol it may

be necessary to use in-band DTMF signalling to

manipulate your personal answering machine in

order to retrieve messages. Thus the locally

generated tones must be of network quality and not

just a reasonable facsimile. The DPhone-II DSP can

generate the required tone pairs as well as single

tones to accommodate any in-band signalling

requirement.

Each of the programmable parameters within the

functional blocks is accessed through a serial

microcontroller port compatible with Intel MCS-51

specifications.

Functional Description

In this section, each functional block within the

DPhone-II is described along with all of the

associated control/status bits. Each time a control/

status bit(s) is described it is followed by the address

to the section titled ‘Register Summary' for a

complete listing of all address map registers, the

control/status bits associated with each register and

a definition of the function of each control/status bit.

The Register Summary is useful for future reference

of control/status bits without the need to locate them

within the text of the functional descriptions.

Filter-CODEC

The Filter/CODEC block implements conversion of

the analog 3.3kHz speech signals to/from the digital

domain compatible with 64kb/s PCM B-Channels.

Selection of companding curves and digital code

assignment are register programmable. These are

CCITT G.711 A-law or µ-Law, with true-sign/

Alternate

Magnitude coding, respectively. Optionally, sign-

magnitude

proprietary applications.

The Filter/CODEC block also implements transmit

and receive audio path gains in the analog domain.

These gains are in addition to the digital gain pad

provided in the DSP section and provide an overall

path gain resolution of 0.5dB. A programmable gain,

voice side-tone path is also included to provide

proportional transmit

handset receiver so that a dead sounding handset is

not encountered. Figure 3 depicts the nominal

half-channel and side-tone gains for the DPhone-II.

Digit

coding

Inversion

may

speech

also

feedback

true-sign/Inverted

selected

the

for

MT9094 Mitel Networks Corporation, MT9094 Datasheet - Page 4

MT9094

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