MT9196AS Zarlink Semiconductor, Inc., MT9196AS Datasheet - Page 7

MT9196AS

Manufacturer Part Number

MT9196AS

Description

Integrated Digital Phone Circuit (IDPC)

Manufacturer

Zarlink Semiconductor, Inc.

Datasheet

1.MT9196AS.pdf (46 pages)

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Low and high tones are enabled individually via the

LoEn and HiEN control bits (DTMF/Ringer Control

control over dual tone generation but also allows

single tone generation using either of the enable bits

and its associated coefﬁcient register.

After programming and enabling the tone generators

as described, selection of transmit and/or receive

path destinations are carried out via the Path Control

Registers (see Path Control section). In addition

receive sidetone DTMF must be selected via the

DTMF StEN bit (DTMF/Tone ringer Register, address

18h) so that it replaces the received PCM in the Rx

Filter path.

DTMF Signal to distortion:

Table 2 gives the standard DTMF frequencies, the

coefﬁcient

frequency, the actual frequency generated and the

percent deviation of the generated tone from the

nominal.

Tone Ringer

A dual frequency squarewave ringing signal may be

applied to the handsfree speaker driver to generate a

call alerting signal. To enable this mode the Ring En

bit (address 18h) must be set as well as the ringer

function to the loudspeaker via the Receive Path

Control

independent of the DTMF enable control bits (see Lo

EN and Hi EN). Since both functions use the same

coefﬁcient registers they are not usually enabled

simultaneously.

The

programmed into the low and high Tone Coefﬁcient

Registers (addresses 1Ah and 1Bh) to generate two

different squarewave frequencies.

Frequency

The sum of harmonic and noise power in the frequency band

from 50 Hz to 3500 Hz is typically more than 30 dB below the

power in the tone pair. All individual harmonics are typically

more than 40 dB below the level of the low group tone.

1209

1336

1477

1633

(Hz)

697

770

852

941

digital

required

Table 2 - DTMF Frequencies

tone

COEFF

BDh

6Dh

ABh

D1h

9Bh

59h

63h

79h

(address

generator

Frequency

generate

Actual

1210.9

1335.9

1476.6

1632.8

695.3

773.4

851.6

945.3

13h). Ring

uses

the

Deviation

+.40%

+.46%

+.20%

-.20%

-.05%

-.03%

-.01%

.00%

closest

values

Both coefﬁcients are determined by the following

equation:

where COEFF is an integer between 1 and 255. This

produces frequencies between 125 - 16000 Hz with

a non-linear resolution.

The ringer program switches between these two

frequencies at a 5 Hz or 10 Hz rate as selected by

the WR bit in the DTMF/Tone ringer register (address

18h).

Anti-Howl

IDPC includes an Anti-Howling circuit plus speaker

gain control circuit to allow for group listening

operation. Although this is the main function of the

circuit there are additional modes in which it may be

used as deﬁned by the MS1 and MS0 control bits

(address 1Ch).

MS1

The circuit is enabled by setting the Anti-howl Enable

bit (address 1Ch) and selecting the required

operational mode (MS0 & MS1) as described.

For all modes of operation the switching levels and

inserted loss are programmed as follows.

Switching decisions are made by comparing either

the transmit or the receive signal level to threshold

levels stored in the High Threshold Register (address

1Dh) and the Low Threshold Register (address 1Eh).

Threshold data is encoded in PCM sign-magnitude

format excluding the sign bit. For example; THh0 -

THh3 encode the PCM step number while THh4 -

THh6 encode the PCM chord number for the high

threshold. Similarily for the THl0 - THl6 bits of the low

threshold. The difference between the high and low

threshold levels provides the circuit with hysteresis to

prevent

threshold must never be programmed to a value

higher than the one stored in the high level threshold.

If this occurs the circuit will become unstable.

Loss is implemented, in the chosen path, by

subtracting the value set by the Pad0 - Pad3 control

bits from the appropriate gain value set by the RxG0

- RxG3 or TxG0 - TxG3 control bits (see Digital Gain

MS0

COEFF = [32000/Frequency (Hz)] - 1

uncontrolled

Operational Mode

Tx noise reduction (squelch)

Rx noise reduction (squelch)

switched loss group listening

(anti-howling)

Tx/Rx switched loss

operation. The

MT9196

low

level

7-141

MT9196AS Zarlink Semiconductor, Inc., MT9196AS Datasheet - Page 7

MT9196AS

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