mt9196asr1 Zarlink Semiconductor, mt9196asr1 Datasheet - Page 4

mt9196asr1

Manufacturer Part Number

mt9196asr1

Description

Fully Featured Digital Telephone Circuit With Built-in Filter/codec, Digital Gain Pads, Dtmf Generator, Tone Ringer, And Handset And Speakerphone Transducers

Manufacturer

Zarlink Semiconductor

Datasheet

1.MT9196ASR1.pdf (46 pages)

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The IDPC features complete Analog/Digital and Digital/Analog conversion of audio signals (Filter/CODEC) and an

analog interface to electro-acoustic devices (Transducer Interface). Full programmability of the receive path and

side-tone gains is available to set comfortable listening levels for the user. Transmit path gain control is available for

setting nominal transmit levels into the network. A digital, anti-feedback circuit permits both the handset microphone

and the speaker-phone speaker to be enabled at the same time for group listening applications. This anti-feedback

circuit limits the total loop gain there by preventing a singing condition from developing.

Signalling in digital telephone systems, behind the PBX or standard ISDN applications, is handled on the D-channel

and generally does not require DTMF tones. Locally generated tones, in the set, however, can be used to provided

“comfort tones” or “key confirmation” to the user, similar to the familiar DTMF tones generated by conventional

phones during initial call set-up. Also, as the network slowly evolves from the dial pulse/DTMF methods to the D-

Channel protocols it is essential that the older methods be available for backward compatibility. As an example,

once a call has been established (i.e., 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. The IDPC 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

Functional Description

In this section each of the functional blocks within IDPC 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 register where it will be found. The

reader is referred to the section titled 'Register Summary' for a complete listing of all address registers, the

control/status bits associated with each register and a definition of the function of each control/status bit. The

the functional descriptions.

Filter/CODEC

The Filter/CODEC block implements conversion of the analog 3.3 kHz speech signals to/from the digital domain

compatible with 64 kb/s PCM B-Channels. Selection of companding curves and digital code assignment are

sign/Inverted Magnitude coding, respectively. Optionally, sign- magnitude coding may also be selected for

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 section and provide an overall path gain resolution of 1.0 dB. A programmable

gain, voice side-tone path is also included to provide proportional transmit speech feedback to the handset receiver.

Figure 3 depicts the nominal half-channel and side-tone gains for the IDPC.

On PWRST (pin 5) the Filter/CODEC defaults such that the side-tone path, dial tone filter and 400 Hz transmit filter

are off, all programmable gains are set to 0 dB and CCITT -Law is selected. Further, the Filter/CODEC is powered

down due to the control bits of the Path Control Registers (addresses 12h and 13h) being reset.

The internal architecture is fully differential to provide the best possible noise rejection as well as to allow a wide

dynamic range from a single 5 volt supply design. This fully differential architecture is continued into the Transducer

Interface section to provide full chip realization of these capabilities for the handset and loudspeaker functions.

A reference voltage (V

biasing the internal analog sections, are both generated on-chip. V

may be used for biasing external gain plan setting amplifiers. A 0.1 F capacitor must be connected from V

analog ground at all times. Likewise, although V

to ground is required at all times. The analog ground reference point for these two capacitors must be physically the

same point. To facilitate this the V

Ref

), for the conversion requirements of the CODEC section, and a bias voltage (V

Ref

, Motorola SPI

and V

Bias

Zarlink Semiconductor Inc.

pins are situated on adjacent pins.

Ref

may only be used internally, a 0.1 F capacitor from the V

MT9196

and National Semiconductor Microwire

Bias

is also brought to an external pin so that it

specifications.

Data Sheet

Bias

Ref

Bias

), for

mt9196asr1 Zarlink Semiconductor, mt9196asr1 Datasheet - Page 4

mt9196asr1

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