MT88L89AC MITEL [Mitel Networks Corporation], MT88L89AC Datasheet - Page 8

MT88L89AC

Manufacturer Part Number

MT88L89AC

Description

3V Integrated DTMFTransceiver with Adaptive Micro Interface

Manufacturer

MITEL [Mitel Networks Corporation]

Datasheet

1.MT88L89AC.pdf (20 pages)

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MT88L89

Distortion Calculations

The MT88L89 is capable of producing precise tone

bursts with minimal error in frequency (see Table 2).

The internal summing amplifier is followed by a first-

order lowpass switched capacitor filter to minimize

harmonic components and intermodulation products.

The total harmonic distortion for a single tone can be

calculated using Equation 1, which is the ratio of the

total power of all the extraneous frequencies to the

power of the fundamental frequency expressed as a

percentage.

The

correspond to V

waveform. The total harmonic distortion for a dual

tone can be calculated using Equation 2. V

correspond to the low group amplitude and high

group amplitude, respectively and V

of all the intermodulation components. The internal

switched-capacitor filter following the D/A converter

keeps distortion products down to a very low level as

shown in Figure 10.

4-132

THD (%) = 100

Table 2. Actual Frequencies Versus Standard

THD (%) = 100

ACTIVE

INPUT

Fourier

Equation 1. THD (%) For a Single Tone

Equation 2. THD (%) For a Dual Tone

OUTPUT FREQUENCY (Hz)

SPECIFIED

components

1209

1336

1477

1633

697

770

852

941

.... V

Requirements

as measured on the output

+ V

+ ..

ACTUAL

1215.9

1331.7

1471.9

1645.0

699.1

766.2

847.4

948.0

fundamental

+ ....

+ V

the

IMD

+ .... V

IMD

tone

%ERROR

is the sum

+0.30

+0.74

+0.57

+0.73

-0.49

-0.54

-0.32

-0.35

and V

output

DTMF Clock Circuit

The internal clock circuit is completed with the

addition of a standard television colour burst crystal

having a resonant frequency of 3.579545 MHz. A

number of MT88L89 devices can be connected as

shown in Figure 11 such that only one crystal is

required. Alternatively, the OSC1 inputs on all

devices can be driven from a TTL buffer with the

OSC2 outputs left unconnected.

Microprocessor Interface

The MT88L89 design incorporates an adaptive

interface, which allows it to be connected to various

kinds of microprocessors. Key functions of this

interface include the following:

•

Figure 16 shows the timing diagram for Motorola

microprocessors with separate address and data

buses. Members of this microprocessor family

include 2 MHz versions of the MC6800, MC6802 and

MC6809. For the MC6809, the chip select (CS) input

signal is formed by NANDing the (E+Q) clocks and

address decode output. For the MC6800 and

MC6802, CS is formed by NANDing VMA and

address decode output. On the falling edge of CS,

the internal logic senses the state of data strobe

OSC1 OSC2

Continuous activity on DS/RD is not necessary

to update the internal status registers.

senses whether input timing is that of an Intel or

Motorola controller by monitoring the DS (RD),

R/W (WR) and CS inputs.

generates equivalent CS signal for internal

operation for all processors.

differentiates between multiplexed and non-

multiplexed microprocessor buses. Address

and data are latched in accordingly.

compatible with Motorola and Intel processors.

3.579545 MHz

MT88L89

Figure 11 - Common Crystal Connection

OSC1 OSC2

MT88L89

OSC1 OSC2

MT88L89

MT88L89AC MITEL [Mitel Networks Corporation], MT88L89AC Datasheet - Page 8

MT88L89AC

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