MT8888CC-1 MITEL [Mitel Networks Corporation], MT8888CC-1 Datasheet - Page 8

MT8888CC-1

Manufacturer Part Number

MT8888CC-1

Description

Integrated DTMFTransceiver with Intel Micro Interface

Manufacturer

MITEL [Mitel Networks Corporation]

Datasheet

1.MT8888CC-1.pdf (16 pages)

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MT8888C/MT8888C-1

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.

DTMF Clock Circuit

The internal clock circuit is completed with the

addition of a standard television colour burst crystal.

The crystal specification is as follows:

Frequency:

Frequency Tolerance:

Resonance Mode:

Load Capacitance:

Maximum Series Resistance:150 ohms

Maximum Drive Level:

e.g.

A number of MT8888C/MT8888C-1 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 MT8888C/MT8888C-1 incorporates an Intel

microprocessor interface which is compatible with

fast versions (16 MHz) of the 80C51. No wait cycles

need to be inserted.

4-98

THD (%) = 100

OSC1 OSC2

MT8888C-1

3.579545 MHz

MT8888C/

CTS Knights MP036S

Toyocom TQC-203-A-9S

Fourier

Figure 11 - Common Crystal Connection

Equation 2. THD (%) For a Dual Tone

components

.... V

OSC1 OSC2

MT8888C-1

MT8888C/

as measured on the output

+ V

Parallel

18pF

3.579545 MHz

+ .. V

0.1%

2mW

+ .... V

+ V

the

+ V

IMD

+ V

IMD

OSC1 OSC2

tone

MT8888C-1

MT8888C/

is the sum

and V

output

Figures 17 and 18 are the timing diagrams for the

Intel 8031, 8051 and 8085 (5 MHz) microcontrollers.

By NANDing the address latch enable (ALE) output

with the high-byte address (P2) decode output, CS is

generated. Figure 12 summarizes the connection of

these Intel processors to the MT8888C/MT8888C-1

transceiver.

The microprocessor interface provides access to five

internal registers. The read-only Receive Data

valid DTMF digit received. Data entered into the

write-only Transmit Data Register will determine

which tone pair is to be generated (see Table 1 for

coding details). Transceiver control is accomplished

with two control registers (see Tables 6 and 7), CRA

and CRB, which have the same address. A write

operation to CRB is executed by first setting the

most significant bit (b3) in CRA. The following write

operation to the same address will then be directed

to CRB, and subsequent write cycles will be directed

back to CRA. The read-only status register indicates

the current transceiver state (see Table 8).

A software reset must be included at the beginning

of all programs to initialize the control registers upon

power-up or power reset (see Figure 17). Refer to

Tables 4-7 for bit descriptions of the two control

registers.

The multiplexed IRQ/CP pin can be programmed to

generate an interrupt upon validation of DTMF

signals or when the transmitter is ready for more

data (burst mode only). Alternatively, this pin can be

configured to provide a squarewave output of the call

progress signal. The IRQ/CP pin is an open drain

output and requires an external pull-up resistor (see

Figure 13).

RS0

RSEL

C/R

Table 3. Internal Register Functions

Table 4. CRA Bit Positions

Table 5. CRB Bit Positions

S/D

IRQ

CP/DTMF

Write to Transmit

Data Register

Read from Receive

Data Register

Write to Control Register

Read from Status Register

TEST

FUNCTION

ENABLE

BURST

TOUT

MT8888CC-1 MITEL [Mitel Networks Corporation], MT8888CC-1 Datasheet - Page 8

MT8888CC-1

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