CMX867 - MX-COM, Inc.

COMMUNICATION ICs

DATA BULLETIN

CMX867

Low Power

V.22 Modem

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

ADVANCE INFORMATION

Features Applications

• V.22, Bell 212A 1200/1200 or 600/600bps DPSK

• V.23 1200/75, 1200/1200, 75, 1200bps FSK

• Bell 202 1200/150, 1200/1200, 150, 1200bps FSK

• V.21 or Bell 103 300/300bps FSK

• DTMF/Tones Transmit and Receive

• Extremely Low Power: 3.5mA/3V, 6.5mA/5V typ.

• Powersave Standby Mode

• Upward Compatible to CMX868 2400bps V.22bis

Modem

• Phone Line Powered Devices

• Payphones

• Remote Utility Meter Reading

• POS Terminals

• Cable TV Set Top Box (STB)

• Telephone Telemetry Systems

• Security Systems

• Industrial Control Systems

• Modem Links with Caller ID

C-BUS

SERIAL

INTERFACE

LINE

CMX867

LINE

INTERFACE

HOST

µC

TX USART & SCRAMBLER.

DPSK / FSK MODULATOR.

TONE / DTMF GENERATOR.

RX DESCRAMBLER & USART,

DPSK / FSK RECEIVER.

TONE / DTMF DETECTOR.

RING DETECTOR.

RELAY DRIVER.

The CMX867 is a multi-standard modem for use in telephone based information and telemetry systems.

Control of the device is via a simple high speed serial bus, compatible with most types of µC serial interfaces.

The data transmitted and received by the modem is also transferred over the same serial bus. On-chip

programmable Tx and Rx USARTs meeting the requirements of V.14 are provided for use with asynchronous

data and allow unformatted synchronous data to be received or transmitted as 8-bit words.

The CMX867 can transmit and detect standard DTMF and modem calling and answer signals or user-specific

programmed single or dual tone signals. A general purpose Call Progress signal detector is also included.

Flexible line driver and receive hybrid circuits are integrated on chip, requiring only passive external

components to create a 2 or 4-wire line interface.

The device also features a Hook Switch Relay Drive output and a Ring Detector circuit which continues to

function when the device is in the Powersave mode, providing an interrupt which can be used to wake up the

host µController when line voltage reversal or ringing is detected.

The CMX867 operates from a single 2.7 to 5.5V supply over a temperature range of -40°C to +85°C and is

available in 24-pin TSSOP, SOIC and DIP packages.

Low Power V.22 Modem 2 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

CONTENTS

Section Page

1 Block Diagram................................................................................................................ 3

2 Signal List....................................................................................................................... 4

3 External Components.................................................................................................... 5

3.1 Ring Detector Interface........................................................................................................ 6

3.2 Line Interface....................................................................................................................... 7

3.2.1 2-Wire Line Interface .............................................................................................................. 7

3.2.2 4-Wire Line Interface .............................................................................................................. 8

4 General Description....................................................................................................... 9

4.1 Tx USART ......................................................................................................................... 10

4.2 FSK and DPSK Modulators ............................................................................................... 11

4.3 Tx Filter and Equalizer....................................................................................................... 11

4.4 DTMF/Tone Generator ...................................................................................................... 11

4.5 Tx Level Control and Output Buffer ................................................................................... 11

4.6 Rx DTMF/Tones Detectors................................................................................................ 11

4.7 Rx Modem Filtering and Demodulation ............................................................................. 13

4.8 Rx Modem Pattern Detectors and Descrambler................................................................ 14

4.9 Rx Data Register and USART ........................................................................................... 15

4.10 C-BUS Interface ................................................................................................................ 16

4.10.1 General Reset Command (no data) C-BUS address $01 .................................................. 17

4.10.2 General Control Register: 16-bit write-only C-BUS address $E0........................................ 18

4.10.3 Transmit Mode Register: 16-bit write-only C-BUS address $E1 ......................................... 19

4.10.4 Receive Mode Register ........................................................................................................ 23

4.10.5 Tx Data Register .................................................................................................................. 24

4.10.6 Rx Data Register .................................................................................................................. 25

4.10.7 Status Register: 16-bit read-only C-BUS address $E6 ...................................................... 26

4.10.8 Programming Register ......................................................................................................... 29

5 Application Notes ........................................................................................................ 32

5.1 V.22 Calling Modem Application........................................................................................ 32

5.2 V.22 Answering Modem Application.................................................................................. 32

6 Performance Specification.......................................................................................... 33

6.1 Electrical Performance ...................................................................................................... 33

6.1.1 Absolute Maximum Ratings.................................................................................................. 33

6.1.2 Operating Limits ................................................................................................................... 33

6.1.3 Operating Characteristics..................................................................................................... 34

6.2 Packaging.......................................................................................................................... 41

MX-COM, Inc. reserves the right to change specifications at any time and without notice.

Low Power V.22 Modem 3 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

1 Block Diagram

IRQ

RDRV

XTAL / CLOCK XTAL

TXA

RXAFB

RXA

DATA

COMMAND

DATA

SERIAL

CLOCK

Xtal Osc and

Clock Dividers

BI AS

C-BUS

SERIAL

INTERFACE

Tx / Rx

DATA

REGISTERS

& USART

LOCAL

ANALOG

LOOPBACK

Tx Output

Buffer

Tx Level

Control

Rx Input

Amplifier

Rx Gain

Control

Scrambler Enable

Descrambler Enable

DPSK

MODULATOR

FSK

DEMODULATOR

RING

DETECTOR

DPSK

DEMODULATOR

FSK

MODULATOR

DTMF/TONE

GENERATOR

MODEM

ENERGY

DETECTOR

DTMF/TONE/

CALL PROG/

ANSWER TONE

DETECTOR

RECEIVE

MODEM

FILTER &

EQUALIZER

TRANSMIT

FILTER &

EQUALIZER

Figure 1: Block Diagram

Low Power V.22 Modem 4 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

2 Signal List

D2/E2/P4 Signal Description

Pin No. Name Type

1 XTAL output The output of the on-chip Xtal oscillator inverter.

2 XTAL/CLOCK input

The input to the oscillator inverter from the Xtal circuit or

external clock source.

3 RDRV output Relay drive output, low resistance pull down to VSS when

active and medium resistance pull up to VDD when inactive.

4, 8, 12,

17, 21 VSS Power The negative supply rail (ground).

5 RD input

Schmitt trigger input to the Ring signal detector. Connect to

VSS if Ring Detector not used.

6 RT bi-directional

Open drain output and Schmitt trigger input forming part of

the Ring signal detector. Connect to VDD if Ring Detector

not used.

7, 16, 24 VDD Power

The positive supply rail. Levels and thresholds within the

device are proportional to this voltage.

9 RXAFB output The output of the Rx Input Amplifier.

10 RXA input The inverting input to the Rx Input Amplifier

11 RXA input The non-inverting input to the Rx Input Amplifier

13 VBIAS output

Internally generated bias voltage of approximately VDD/2,

except when the device is in ‘Powersave’ mode when VBIAS

will discharge to VSS. Should be de-coupled to VSS by a

capacitor mounted close to the device pins.

14 TXA output The inverted output of the Tx Output Buffer.

15 TXA output The non-inverted output of the Tx Output Buffer.

18 CS input The C-BUS chip select input from the µC.

19 COMMAND

DATA input The C-BUS serial data input from the µC.

20 SERIAL CLOCK input The C-BUS serial clock input from the µC.

22 REPLY DATA tri-state

A 3-state C-BUS serial data output to the µC. This output is

high impedance when not sending data to the µC.

23 IRQ output

A ‘wire-ORable’ output for connection to a µC Interrupt

Request input. This output is pulled down to VSS when

active and is high impedance when inactive. An external

pull-up resistor is required i.e. R1 of Figure 2.

Table 1: Signal List

Low Power V.22 Modem 5 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

3 External Components

XTAL

XTAL/CLOCK

C-BUS

to/from

µC

Ring Detector

See Section 3.1

Tx Line Interface

See Section 3.2

Rx Line Interface

See Section 3.2

SERIAL CLOCK

COMMAND DATA

REPLY DATA

IRQ

RDRV

TXA

RXA

RXAFB

TXA

BIAS

CMX867

12 13

24 R1

Figure 2: Recommended External Components for Typical Applciation

R1 100kΩ C5 10uF

C1, C2 22pF X1 11.0592MHz or 12.288MHz

C3, C4 100nF

Resistors ±5%, capacitors ±20% unless otherwise stated.

Table 2: Recommended External Components for typical Application

Note:

1. This device is capable of detecting and decoding small amplitude signals. To achieve this VDD and VBIAS

should be decoupled and the receive path protected from extraneous in-band signals. It is recommended

that the printed circuit board be laid out with a VSS ground plane in the CMX867 area to provide a low

impedance connection between the VSS pins and the VDD and VBIAS decoupling capacitors. The VSS

connections to the Xtal oscillator capacitors C1 and C2 should also be low impedance and preferably be

part of the VSS ground plane to ensure reliable start up of the oscillator.

2. For best results, a crystal oscillator design should drive the clock inverter input with signal levels of at

least 40% of VDD, peak to peak. Tuning fork crystals generally cannot meet this requirement. To obtain

crystal oscillator design assistance, please consult your crystal manufacturer.

Low Power V.22 Modem 6 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

3.1 Ring Detector Interface

Figure 3 shows how the CMX867 may be used to detect the large amplitude Ringing signal voltage present

on the 2-wire line at the start of an incoming telephone call.

The ring signal is usually applied at the subscriber's exchange as an ac voltage inserted in series with one of

the telephone wires and will pass through either C20 and R20 or C21 and R21 to appear at the top end of

R22 (point X in Figure 3) in a rectified and attenuated form.

The signal at point X is further attenuated by the potential divider formed by R22 and R23 before being

applied to the CMX867 RD input. If the amplitude of the signal appearing at RD is greater than the input

threshold (VtHI) of Schmitt trigger 'A' then the N transistor connected to RT will be turned on, pulling the

voltage at RT to VSS by discharging the external capacitor C22. The output of the Schmitt trigger 'B' will then

go high, setting bit 14 (Ring Detect) of the Status Register.

The minimum amplitude ringing signal that is certain to be detected is:

()

RMSHI V707.0

23R

23R22R20R

Vt7.0 











where VtHI is the high-going threshold voltage of the Schmitt trigger A (see Section 6.1).

With R20-22 all 470kΩ as Figure 3, then setting R23 to 68kΩ will guarantee detection of ringing signals of

40VRMS and above for VDD over the range 3 to 5V.

2-Wire

Telephone

Line

CMX867

To Status

VDD

D1 - 4

C20

C22

R20

R21

R22

R23

R24

C21

Status Register bit 14

(Ring Detect)

Bridge rectifier

output (X)

Ring signal

VSS

Figure 3: Ring Signal Interface Circuit

R20, 21, 22 470kΩ C20, 21 0.1µF

R23 See text C22

0.33µF

R24 470kΩ D1-4 1N4004

Resistors ±5%, capacitors ±20%

Table 3: Ring Signal Detector Interface Circuit External Components

Low Power V.22 Modem 7 CMX867 Advance Information

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4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

If the time constant of R24 and C22 is large enough then the voltage on RT will remain below the threshold of

the 'B' Schmitt trigger for the duration of a ring cycle.

The time for the voltage on RT to charge from VSS towards VDD can be derived from the formula













−= 











−

22C24R

DDRT e1VV

As the Schmitt trigger high-going input threshold voltage (VtHI) has a minimum value of 0.56 x VDD, then the

Schmitt trigger B output will remain high for a time of at least 0.821 x R24 x C22 following a pulse at RD.

The values of R24 and C22 given in Figure 3 (470kΩ and 0.33µF) give a minimum RT charge time of 100ms,

which is adequate for ring frequencies of 10Hz or above.

Note: The circuit will also respond to a telephone line voltage reversal. If necessary the µC can distinguish

between a Ring signal and a line voltage reversal by measuring the time that bit 14 of the Status Register

(Ring Detect) is high.

If the Ring detect function is not used then pin RD should be connected to VSS and RT to VDD.

3.2 Line Interface

A line interface circuit is needed to provide dc isolation and to terminate the line.

3.2.1 2-Wire Line Interface

Figure 4 shows an interface for use with a 600Ω 2-wire line. The complex line termination is provided by R13

and C10, high frequency noise is attenuated by C10 and C11, while R11 and R12 set the receive signal level

into the modem. For clarity, 2-wire line protection circuits have not been shown.

+ve

R13

2-Wire

Line

1:1

RDRV

To Ring

Detect Circuit

See Section 3.1

Optional buffer if

needed to drive

low resistance relay

CMX867

TXA

R11 C11

R12

C10

RXA

VBIAS

RXAFB

Figure 4: 2-Wireline Interface Circuit

R11 See text C3 See Figure 2

R12 100kΩ C10 33nF

R13 600Ω C11 100pF

Resistors ±5%, capacitors ±20%

Table 4: 2-Wireline Interface Circuit External Components

The transmit line signal level is determined by the voltage swing between the TXA and TXA pins, less 6dB

due to the line termination resistor R13, and less the loss in the line coupling transformer.

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4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

Allowing for 1dB loss in the transformer, then with the Tx Mode Register set for a Tx Level Control gain of 0dB

the nominal transmit line levels will be:

VDD = 3.0V VDD = 5.0V

DPSK and FSK Tx modes (no guard tone) -10dBm -5.5dBm

Single tone transmit mode -10dBm -5.5dBm

DTMF transmit mode -6 and -8 dBm -1.5 and -3.5 dBm

For a line impedance of 600Ω, 0dBm = 775mVRMS. See also Section 6.1.3.

In the receive direction, the signal detection thresholds within the CMX867 are proportional to VDD and are

affected by the Rx Gain Control gain setting in the Rx Mode Register. The signal level into the CMX867 is

affected by the line coupling transformer loss and the values of R11 and R12 of Figure 4.

Assuming 1dB transformer loss, the Rx Gain Control programmed to 0dB and R12 = 100kΩ, then for correct

operation (see Section 6.1.3) the value of R11 should be equal to 500 / VDD kΩ i.e. 160kΩ at 3.0V, falling to

100kΩ at 5.0V

3.2.2 4-Wire Line Interface

Figure 5 shows an interface for use with a 600Ω 4-wire line. The line terminations are provided by R10 and

R13, high frequency noise is attenuated by C11 while R11 and R12 set the receive signal level into the

modem.

Transmit and receive line level settings and the value of R11 are as for the 2-wire circuit.

C12

R10

4-Wire

Line

1:1

R13

CMX867

TXA

R11

C11

R12

RXA

VBIAS

RXAFB

Figure 5: 4-Wireline Interface Circuit

R10, 13 600Ω 1 C3 See Figure 2

R11 See text C11 100pF

R12 100kΩ C12 33nF

Resistors ±5%, capacitors ±20%

Table 5: 4-Wireline Interface Circuit External Components

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4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

4 General Description

The CMX867 transmit and receive operating modes are independently programmable.

The transmit mode can be set to any one of the following:

• V.22 and Bell 212A modem. 1200 or 600bps DPSK (Differential Phase Shift Keying).

• V.21 modem. 300bps FSK (Frequency Shift Keying).

• Bell 103 modem. 300bps FSK.

• V.23 modem. 1200 or 75bps FSK.

• Bell 202 modem. 1200 or 150bps FSK.

• DTMF transmit.

• Single tone transmit (from a range of modem calling, answer and other tone frequencies)

• User programmed tone or tone pair transmit (programmable frequencies and levels)

• Disabled.

The receive mode can be set to any one of the following:

• V.22 and Bell 212A modem. 1200 or 600bps DPSK.

• V.21 modem. 300bps FSK.

• Bell 103 modem. 300bps FSK.

• V.23 modem. 1200 or 75bps FSK.

• Bell 202 modem. 1200 or 150bps FSK.

• DTMF detect.

• 2100Hz and 2225Hz answer tone detect.

• Call progress signal detect.

• User programmed tone or tone pair detect.

• Disabled.

The CMX867 may also be set into a Powersave mode that disables all circuitry except for the C-BUS

interface and the Ring Detector.

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4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

4.1 Tx USART

A flexible Tx USART is provided for all modem modes, meeting the requirements of V.14 for DPSK modems.

It can be programmed to transmit continuous patterns, Start-Stop characters or Synchronous Data.

In both Synchronous Data and Start-Stop modes the data to be transmitted is written by the µC into the 8-bit

C-BUS Tx Data Register from which it is transferred to the Tx Data Buffer.

If Synchronous Data mode has been selected the 8 data bits in the Tx Data Buffer are transmitted serially, b0

being sent first.

In Start-Stop mode a single Start bit is transmitted, followed by 5, 6, 7 or 8 data bits from the Tx Data Buffer -

b0 first - followed by an optional Parity bit then - normally - one or two Stop bits. The Start, Parity and Stop

bits are generated by the USART as determined by the Tx Mode Register settings and are not taken from the

Tx Data Register.

Tx Data Register

C-BUS Interface

Tx USART

Modem bit rate clock

Continuous

patterns

To FSK or

DPSK

Modulator

Enable

Tx data

from µC

Start/Stop

bits

Tx Data Buffer

Parity bit generator

USART Control

7 0

Scrambler

Figure 6: Tx USART

Every time the contents of the C-BUS Tx Data Register are transferred to the Tx Data Buffer the Tx Data

Ready flag bit of the Status Register is set to 1 to indicate that a new value should be loaded into the C-BUS

Tx Data Register. This flag bit is cleared to 0 when a new value is loaded into the Tx Data Register.

StartTx Line Signal:

Tx Data Ready flag bit:

Par'y StopB0 B1 B7

Figure 7: Tx USART Function (Start-Stop mode, 8 Data Bits + Parity)

If a new value is not loaded into the Tx Data Register in time for the next Tx Data Register to Tx Data Buffer

transfer then the Status Register Tx Data Underflow bit will be set to 1. In this event the contents of the Tx

Data Buffer will be re-transmitted if Synchronous Data mode has been selected, or if the Tx modem is in

Start-Stop mode then a continuous Stop signal (1) will be transmitted until a new value is loaded into the Tx

Data Register.

In all modes the transmitted bit and baud rates are the nominal rates for the selected modem type, with an

accuracy determined by the XTAL frequency accuracy, however for DPSK modes V.14 requires that Start-

Stop characters can be transmitted at up to 1% overspeed (basic signaling rate range) or 2.3% overspeed

(extended signaling rate range) by deleting a Stop bit from no more than one out of every 8 (basic range) or 4

(extended range) consecutive transmitted characters.

To accommodate the V.14 requirement the Tx Data Register has been given two C-BUS addresses, $E3 and

$E4. Data should normally be written to $E3.

In DPSK Start-Stop modes if data is written to $E4 then the programmed number of Stop bits will be reduced

by one for that character. In this way the µC can delete transmitted Stop bits as needed.

In FSK Start-Stop modes, data written to $E4 will be transmitted with a 12.5% reduction in the length of the

Stop bit at the end of that character.

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In all Synchronous Data modes data written to $E4 will be treated as though it had been written to $E3.

The underspeed transmission requirement of V.14 is automatically met by the CMX867. As in Start-Stop

mode it automatically inserts extra Stop bit(s) if it has to wait for new data to be loaded into the C-BUS Tx

Data Register.

The optional V.22 compatible data scrambler can be programmed to invert the next input bit in the event of 64

consecutive ones appearing at its input. It uses the generating polynomial:

1714 xx1 −− ++

4.2 FSK and DPSK Modulators

Serial data from the USART is fed via the optional scrambler to the FSK modulator if V.21, V.23, Bell 103 or

Bell 202 mode has been selected or to the DPSK modulator for V.22 and Bell 212A modes.

The FSK modulator generates one of two frequencies according to the transmit mode and the value of current

transmit data bit.

The DPSK modulator generates a carrier of 1200Hz (Low Band, Calling modem) or 2400Hz (High Band,

Answering modem) which is modulated at 600 symbols/sec as described below:

600bps V.22 signals are transmitted as a +90° carrier phase change for a ‘0’ bit, +270° for ‘1’.

For V.22 and Bell 212A 1200bps DPSK the transmit data stream is divided into groups of two consecutive bits

(dibits) which are encoded as a carrier phase change:

Dibit

(left-hand bit is the first of the pair) Phase change

00 +90°

01 0°

11 +270°

10 +180°

4.3 Tx Filter and Equalizer

The FSK or DPSK modulator output signal is fed through the Transmit Filter and Equalizer block which limits

the out-of-band signal energy to acceptable limits. In 600 and 1200bps FSK and DPSK modes this block

includes a fixed compromise line equalizer which is automatically set for the particular modulation type and

frequency band being employed. This fixed compromise line equalizer may be enabled or disabled by bit 10

of the General Control Register. The amount of Tx equalization provided compensates for one quarter of the

relative amplitude and delay distortion of ETS Test Line 1 over the frequency band used.

4.4 DTMF/Tone Generator

In DTMF/Tones mode this block generates DTMF signals or single or dual frequency tones. In DPSK modem

modes, it is used to generate the optional 550 or 1800Hz guard tone.

4.5 Tx Level Control and Output Buffer

The outputs (if present) of the Transmit Filter and DTMF/Tone Generator are summed then passed through

the programmable Tx Level Control and Tx Output Buffer to the pins TXA and TXA . The Tx Output Buffer

has symmetrical outputs to provide sufficient line voltage swing at low values of VDD and to reduce harmonic

distortion of the signal.

4.6 Rx DTMF/Tones Detectors

In Rx Tones Detect mode the received signal, after passing through the Rx Gain Control block, is fed to the

DTMF / Tones / Call Progress / Answer Tone detector. The user may select any of four separate detectors:

The DTMF detector detects standard DTMF signals. A valid DTMF signal will set bit 5 of the Status Register

to 1 for as long as the signal is detected.

The programmable tone pair detector includes two separate tone detectors (see Figure 19). The first detector

will set bit 6 of the Status Register for as long as a valid signal is detected, the second detector sets bit 7, and

bit 10 of the Status Register will be set when both tones are detected.

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4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

The Call Progress detector measures the amplitude of the signal at the output of a 275 - 665Hz bandpass

filter and sets bit 10 of the Status Register to 1 when the signal level exceeds the measurement threshold.

-60

-50

-40

-30

-20

-10

0 0.5 1 1.5 2 2.5 3 3.5 4

kHz

Figure 8: Response of Call Progress Filter

The Answer Tone detector measures both amplitude and frequency of the received signal and sets bit 6 or bit

7 of the Status Register when a valid 2225Hz or 2100Hz signal is received.

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4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

4.7 Rx Modem Filtering and Demodulation

When the receive part of the CMX867 is operating as a modem, the received signal is fed to a bandpass filter

to attenuate unwanted signals and to provide fixed compromise line equalization for 600 and 1200bps FSK

and DPSK modes. The characteristics of the bandpass filter and equalizer are determined by the chosen

receive modem type and frequency band. The line equalizer may be enabled or disabled by bit 10 of the

General Control Register and compensates for one quarter of the relative amplitude and delay distortion of

ETS Test Line 1.

The responses of these filters, including the line equalizer and the effect of external components used in

Figure 4 and Figure 5, are shown in Figure 9, Figure 10, Figure 11, and Figure 12:

-60

-50

-40

-30

-20

-10

00.511.522.533.54

kHz

Figure 9: DPSK Rx Filters

-60

-50

-40

-30

-20

-10

0 0.5 1 1.5 2 2.5 3 3.5 4

kHz

Figure 10: V.21 Rx Filters

-60

-50

-40

-30

-20

-10

0 0.5 1 1.5 2 2.5 3 3.5 4

kHz

Figure 11: Bell 103 Rx Filters

-60

-50

-40

-30

-20

-10

0 0.5 1 1.5 2 2.5 3 3.5 4

kHz

Figure 12: Bell 202 / V.23 Rx Filters

The signal level at the output of the Receive Modem Filter and Equalizer is measured in the Modem Energy

Detector block, compared to a threshold value, and the result controls bit 10 of the Status Register.

The output of the Receive Modem Filter and Equalizer is also fed to the FSK or DPSK demodulator

depending on the selected modem type.

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The FSK demodulator recognizes individual frequencies as representing received ‘1’ or ‘0’ data bits:

The DPSK demodulator decodes DPSK modulation of a 1200Hz or 2400Hz carrier and is used for V.22 and

Bell 212A modes. It includes an adaptive receive signal equalizer (auto-equalizer) that will automatically

compensate for a wide range of line conditions in DPSK modes. The auto-equalizer can provide a useful

improvement in performance in 600 or 1200bps DPSK modes so, although it must be disabled at the start of a

handshake sequence, it can be enabled as soon as scrambled 1200bps 1s have been detected.

Both FSK and DPSK demodulators produce a serial data bit stream that is fed to the Rx pattern detector,

descrambler and USART block. See Figure 13. The demodulator input is also monitored for continuous dibits

’00,11’ in 1200bps DPSK mode and continuous alternating 1s and 0s in all other modes.

The DPSK demodulator also estimates the received bit error rate by comparing the actual received signal

against an ideal waveform. This estimate is placed in bits 2-0 of the Status Register. See Figure 18.

4.8 Rx Modem Pattern Detectors and Descrambler

Reference Figure 13.

The 1010.. pattern detector operates only in FSK modes and will set bit 9 of the Status Register when 32 bits

of alternating 1’s and 0’s have been received.

The ‘Continuous Unscrambled 1’s’ detector operates in all modem modes and sets bits 8 and 7 of the Status

The descrambler operates only in DPSK modes and is enabled by setting bit 7 of the Rx Mode Register.

The ‘Continuous Scrambled 1’s’ detector operates only in DPSK modes when the descrambler is enabled and

sets bits 8 and 7 of the Status Register to ‘11’ when 32 consecutive 1’s appear at the output of the

descrambler. To avoid possible ambiguity, the ‘Scrambled 1’s’ detector is disabled when continuous

unscrambled 1’s are detected.

The ‘Continuous 0’s’ detector sets bits 8 and 7 of the Status Register to ‘10’ when NX consecutive 0’s have

been received, NX being 32 except when DPSK Start-Stop mode has been selected, in which case

NX = 2N + 4 where N is the number of bits per character including the Start, Stop and any Parity bits.

All of these pattern detectors will hold the ‘detect’ output for 12 bit times after the end of the detected pattern

unless the received bit rate or operating mode is changed, in which case the detectors are reset within 2ms.

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4.9 Rx Data Register and USART

A flexible Rx USART is provided for all modem modes, meeting the requirements of V.14 for DPSK modems.

It can be programmed to treat the received data bit stream as Synchronous data or as Start-Stop characters.

In Synchronous mode the received data bits are all fed into the Rx Data Buffer which is copied into the C-BUS

Rx Data Register after every 8 bits.

In Start-Stop mode the USART Control logic looks for the start of each character, then feeds only the required

number of data bits (not parity) into the Rx Data Buffer. The parity bit (if used) and the presence of a Stop bit

are then checked and the data bits in the Rx Data Buffer copied to the C-BUS Rx Data Register.

Bit rate clock

Start/Stop bits

Rx Data Buffer

Parity bit checker

USART Control

Rx Data Register

C-BUS Interface

Rx USART

Rx data

to µC 7 0

From FSK or

DPSK

Demodulator

Status Register:

b7 b8

Descrambler

(DPSK only)

Enable

Continuous

Scrambled

1s detector

Continuous

0s detector

Continuous

Unscrambled

1s detector

1010

Detector

(FSK only)

Figure 13: Rx Modem Data Paths

Whenever a new character is copied into the C-BUS Rx Data Register, the Rx Data Ready flag bit of the

Status Register is set to ‘1’ to prompt the µC to read the new data; and in Start-Stop mode, the Even Rx

Parity flag bit of the Status Register is updated.

In Start-Stop mode, if the Stop bit is missing (received as a ‘0’ instead of a ‘1’) the received character will still

be placed into the Rx Data Register and the Rx Data Ready flag bit set, but, unless allowed by the

V.14 overspeed option described below, the Status Register Rx Framing Error bit will also be set to ‘1’ and

the USART will re-synchronize onto the next ‘1’ – ‘0’ (Stop – Start) transition. The Rx Framing Error bit will

remain set until the next character has been received.

StartRx Signal:

Rx Data Ready flag bit:

Par'y StopB0 B1 B7

Figure 14: Rx USART Function (Start-Stop mode, 8 Data Bits + Parity)

If the µC has not read the previous data from the Rx Data Register by the time that new data is copied to it

from the Rx Data Buffer then the Rx Data Overflow flag bit of the Status Register will be set to 1.

The Rx Data Ready flag and Rx Data Overflow bits are cleared to 0 when the Rx Data Register is read by the

µC.

For DPSK Start-Stop modes, V.14 requires that the receive USART be able to cope with missing Stop bits; up

to 1 missing Stop bit in every 8 consecutive received characters being allowed for the +1% overspeed (basic

signaling rate) V.14 mode and 1 in 4 for the +2.3% overspeed (extended signaling rate) mode.

To accommodate the requirements of V.14, the CMX867 Rx Mode Register can be set for 0, +1% or +2.3%

overspeed operation in DPSK Start-Stop modes. Missing Stop bits beyond those allowed by the selected

overspeed option will set the Rx Framing Error flag bit of the Status Register.

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In order that received Break signals can be handled correctly in V.14 Rx overspeed mode, a received

character which has all bits ‘0’, including the Stop and any Parity bits, will always cause the Rx Framing Error

bit to be set and the USART to re-synchronize onto the next ‘1’ – ‘0’ transition. Additionally the received

Continuous 0s detector will respond when more than 2M + 3 consecutive ‘0’s are received, where ‘M’ is the

selected total number of bits per character including Stop and any Parity bits.

4.10 C-BUS Interface

This block provides for the transfer of data and control or status information between the CMX867’s internal

registers and the µC over the C-BUS serial bus. Each transaction consists of a single Register Address byte

sent from the µC which may be followed by a one or more data byte(s) sent from the µC to be written into one

of the CMX867’s Write Only Registers, or a one or more byte(s) of data read out from one of the CMX867’s

Read Only Registers, as illustrated in Figure 15.

Data sent from the µC on the Command Data line is clocked into the CMX867 on the rising edge of the Serial

Clock input. Reply Data sent from the CMX867 to the µC is valid when the Serial Clock is high. The CS line

must be held low during a data transfer and kept high between transfers. The C-BUS interface is compatible

with most common µC serial interfaces and may also be easily implemented with general-purpose µC I/O pins

controlled by a simple software routine. Figure 23 gives detailed C-BUS timing requirements.

The following C-BUS addresses and registers are used by the CMX867:

• General Reset Command (address only, no data). Address $01

• General Control Register, 16-bit write-only. Address $E0

• Transmit Mode Register, 16-bit write-only. Address $E1

• Receive Mode Register, 16-bit write-only. Address $E2

• Transmit Data Register, 8-bit write-only. Addresses $E3 and $E4

• Receive Data Register, 8-bit read-only. Address $E5

• Status Register, 16-bit read-only. Address $E6

• Programming Register, 16-bit write-only. Address $E8

Note: The C-BUS addresses $E9, $EA and $EB should not be accessed in normal operation.

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4.10.1 General Reset Command (no data) C-BUS address $01

This command resets the device and clears all bits of the General Control, Transmit Mode and Receive Mode

Registers and bits 15 and 13-0 of the Status Register.

Whenever power is applied to the CMX867 a General Reset command should be sent to the device, after

which the General Control Register should be set as required.

A) Single byte from µC

SERIAL CLOCK

COMMAND DATA

Address (01 Hex = Reset)

= Level not important

Note:

The SERIAL CLOCK line may be high

or low at the start and end of each

transaction. See Figure 23.

Hi-Z

REPLY DATA

76543210

b) One Address and one Data byte from µC

SERIAL CLOCK

COMMAND DATA

Address

Hi-Z

Data to CMX867

REPLY DATA

7654321076543210

c) One Address and 2 Data bytes from µC

SERIAL CLOCK

COMMAND DATA

Address

Hi-Z

First (msb) data

byte to CMX867

Second (lsb) data

byte to CMX867

REPLY DATA

765432107654321076543210

d) One Address byte from µC and one Reply byte from CMX867

SERIAL CLOCK

Hi-Z

Address

Data from CMX867

COMMAND DATA

REPLY DATA

76543210

e) One Address byte from µC and 2 Reply bytes from CMX867

SERIAL CLOCK

Hi-Z

Address

First (msb) byte

from CMX867

Second(lsb) byte

from CMX867

COMMAND DATA

REPLY DATA 7654321076543210

Figure 15: C-BUS Transactions

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4.10.2 General Control Register: 16-bit write-only C-BUS address $E0

This register controls general features of the CMX867 such as the Powersave and Loopback modes, the IRQ

mask bits and the Relay Drive output. It also allows the fixed compromise equalizers in the Tx and Rx signal

paths to be disabled if desired, and sets the internal clock dividers to use either a 11.0592 or a 12.288 MHz

XTAL frequency.

All bits of this register are cleared to 0 by a General Reset command.

Bit: 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

0 0 0 Xtal freq LB Equ Rlydrv Pwr Rst en Irq IRQ Mask Bits

General Control Register b15-13: Reserved, set to 000

General Control Register b12: Xtal frequency

This bit should be set according to the Xtal frequency.

b12 = 1 11.0592MHz

b12 = 0 12.2880MHz

General Control Register b11: Analog Loopback test mode

This bit controls the analogue loopback test mode. Note that in loopback test mode both

Transmit and Receive Mode Registers should be set to the same modem type and band or bit

rate.

b11 = 1 Local analog loopback mode enabled

b11 = 0 No loopback (normal modem operation)

General Control Register b10: Tx and Rx Fixed Compromise Equalizers

This bit allows the Tx and Rx fixed compromise equalizers in the modem transmit and receive

filter blocks to be disabled.

b10 = 1 Disable equalizers

b10 = 0 Enable equalizers (600 or 1200bps modem modes)

General Control Register b9: Relay Drive

This bit directly controls the RDRV output pin.

b9 = 1 RDRV output pin pulled to VSS

b9 = 0 RDRV output pin pulled to VDD

General Control Register b8: Power-up

This bit controls the internal power supply to most of the internal circuits, including the Xtal

oscillator and VBIAS supply. Note that the General Reset command clears this bit, putting the

device into Powersave mode.

When the device is switched from Powersave mode to normal operation by setting the Powerup

bit to 1, about 20ms should be allowed for the internal circuits, Xtal oscillator and VBIAS to

stabilize before starting to use the transmitter or receiver.

Changing the Powerup bit from 0 to 1 clears all bits of the Transmit Mode and Receive Mode

Registers and clears b15 and b13-0 of the Status Register.

b8 = 1 Device powered up normally

b8 = 0 Powersave mode (all circuits except Ring Detect, RDRV and C-BUS

interface disabled)

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General Control Register b7: Reset

Setting this bit to 1 resets the CMX867’s internal circuitry, clearing all bits of the Transmit and

Receive Mode Registers and b15 and b13-0 of the Status Register.

b7 = 1 Internal circuitry in a reset condition.

b7 = 0 Normal operation

General Control Register b6: EN IRQ ( IRQ Output Enable)

Setting this bit to 1 enables the IRQ output pin.

b6 = 1 IRQ pin driven low (to VSS) if the IRQ bit of the Status Register = 1

b6 = 0 IRQ pin disabled (high impedance)

General Control Register b5-0: IRQ Mask bits

These bits affect the operation of the IRQ bit of the Status Register as described in Section 4.10.7.

4.10.3 Transmit Mode Register: 16-bit write-only C-BUS address $E1

This register controls the CMX867 transmit signal type and level. All bits of this register are cleared to 0 by a

General Reset command, in Powersave mode, or when Bit 7 (Reset) of the General Control Register is 1.

15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

Tx mode = modem Tx level Guard tone Scrambler Start-stop /

synch data

# data bits /

synch data source

Tx mode = DTMF/Tones Tx level Unused, set to 0000 DTMF or Tone select

Bit:

Tx mode = Disabled Set to 0000 0000 0000

Tx Mode Register Bits 15-12: Tx mode

These 4 bits select the transmit operating mode.

b15 b14 b13 b12

1 1 1 1 Transmitter disabled (Reserved for future use)

1 1 1 0 Transmitter disabled (Reserved for future use)

1 1 0 1 V.22/Bell 212A 1200bps DPSK High band (Answering modem)

1 1 0 0 “ Low band (Calling modem)

1 0 1 1 V.22 600bps DPSK High band (Answering modem)

1 0 1 0 “ Low band (Calling modem)

1 0 0 1 V.21 300bps FSK High band (Answering modem)

1 0 0 0 “ Low band (Calling modem)

0 1 1 1 Bell 103 300bps FSK High band (Answering modem)

0 1 1 0 “ Low band (Calling modem)

0 1 0 1 V.23 FSK 1200bps

0 1 0 0 “ 75bps

0 0 1 1 Bell 202 FSK 1200bps

0 0 1 0 “ 150bps

0 0 0 1 DTMF / Tones

0 0 0 0 Transmitter disabled

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Tx Mode Register Bits 11-9: Tx level

These 3 bits set the gain of the Tx Level Control block.

Bit 11 Bit 10 Bit 9

1 1 1 0dB

1 1 0 -1.5dB

1 0 1 -3.0dB

1 0 0 -4.5dB

0 1 1 -6.0dB

0 1 0 -7.5dB

0 0 1 -9.0dB

0 0 0 -10.5dB

Tx Mode Register b8-7: Tx Guard tone (DPSK modes)

These 2 bits select the guard tone to be transmitted together with highband DPSK. Set

both bits to 0 in FSK modes.

Bit 8 Bit 7

1 1 Tx 550Hz guard tone

1 0 Tx 1800Hz guard tone

0 x No Tx guard tone

Tx Mode Register b6-5: Tx Scrambler (DPSK modes)

These 2 bits control the operation of the Tx scrambler used in DPSK modes. Set both

bits to 0 in FSK modes.

Bit 6 Bit 5

1 1 Scrambler enabled, 64 ones detect circuit enabled (normal use)

1 0 Scrambler enabled, 64 ones detect circuit disabled

0 x Scrambler disabled

Tx Mode Register b4-3: Tx Data Format (DPSK and FSK modes)

These two bits select Synchronous or Start-stop mode and the addition of a parity bit to

transmitted characters in Start-stop mode.

Bit 4 Bit 3

1 1 Synchronous mode

1 0 Start-stop mode, no parity

0 1 Start-stop mode, even parity bit added to data bits

0 0 Start-stop mode, odd parity bit added to data bits

Tx Mode Register b2-0: Tx Data and Stop bits (DPSK and FSK: Start-Stop modes)

In Start-stop mode these three bits select the number of Tx data and stop bits.

b2 b1 b0

1 1 1 8 data bits, 2 stop bits

1 1 0 8 data bits, 1 stop bit

1 0 1 7 data bits, 2 stop bits

1 0 0 7 data bits, 1 stop bit

0 1 1 6 data bits, 2 stop bits

0 1 0 6 data bits, 1 stop bit

0 0 1 5 data bits, 2 stop bits

0 0 0 5 data bits, 1 stop bit

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Tx Mode Register b2-0: Tx Data source (DPSK and FSK: Synchronous mode)

In Synchronous mode (b4-3 = 11) these three bits select the source of the data fed to the Tx

FSK or DPSK scrambler and modulator.

b2 b1 b0

1 x x Data bytes from Tx Data Buffer

0 1 1 Continuous 1s

0 1 0 Continuous 0s

0 0 x

Continuous dibits ’00,11’ in 1200bps DPSK mode, continuous

alternating 1s and 0s in all other modes.

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Tx Mode Register b8-0: DTMF/Tones mode

If DTMF/Tones transmit mode has been selected (Tx Mode Register b15-12 = 0001) then b8-5 should

be set to 0000 and b4-0 will select a DTMF signal or a fixed tone or one of four programmed tones or

tone pairs for transmission.

b4 = 0: Tx fixed tone or programmed tone pair

Bit 3 Bit 2 Bit 1 Bit 0 Tone frequency (Hz)

0 0 0 0 No tone

0 0 0 1 697

0 0 1 0 770

0 0 1 1 852

0 1 0 0 941

0 1 0 1 1209

0 1 1 0 1336

0 1 1 1 1477

1 0 0 0 1633

1 0 0 1 1300 (Calling tone)

1 0 1 0 2100 (Answer tone)

1 0 1 1 2225 (Answer tone)

1 1 0 0 Tone pair TA Programmed Tx tone or tone pair, see 1.5.10.8

1 1 0 1 Tone pair TB “

1 1 1 0 Tone pair TC “

1 1 1 1 Tone pair TD “

b4 = 1: Tx DTMF

Bit 3 Bit 2 Bit 1 Bit 0 Low frequency (Hz) High frequency (Hz) Keypad symbol

0 0 0 0 941 1633 D

0 0 0 1 697 1209 1

0 0 1 0 697 1336 2

0 0 1 1 697 1477 3

0 1 0 0 770 1209 4

0 1 0 1 770 1336 5

0 1 1 0 770 1477 6

0 1 1 1 852 1209 7

1 0 0 0 852 1336 8

1 0 0 1 852 1477 9

1 0 1 0 941 1336 0

1 0 1 1 941 1209 *

1 1 0 0 941 1477 #

1 1 0 1 697 1633 A

1 1 1 0 770 1633 B

1 1 1 1 852 1633 C

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4.10.4 Receive Mode Register

Receive Mode Register: 16-bit write-only. C-BUS address $E2

This register controls the CMX867 receive signal type and level.

All bits of this register are cleared to 0 by a General Reset command, in Powersave mode or when b7 (Reset)

of the General Control Register is 1.

Bit: 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

Rx mode = modem Rx level Eq Descramble Start-stop/Synch No. of bits and

parity

Rx mode = Tones detect Rx level DTMF/Tones/Call Progress select

Rx mode = Disabled Set to 0000 0000 0000

Rx Mode Register Bits 15-12: Rx mode

These 4 bits select the receive operating mode.

Bit 15 Bit 14 Bit 13 Bit 12

1 1 1 1 Receiver disabled (Reserved for future use)

1 1 1 0 Receiver disabled (Reserved for future use)

1 1 0 1 V.22/Bell 212A 1200bps DPSK High band (Calling modem)

1 1 0 0 “ Low band (Answering modem)

1 0 1 1 V.22 600bps DPSK High band (Calling modem)

1 0 1 0 “ Low band (Answering modem)

1 0 0 1 V.21 300bps FSK High band (Calling modem)

1 0 0 0 “ Low band (Answering modem)

0 1 1 1 Bell 103 300bps FSK High band (Calling modem)

0 1 1 0 “ Low band (Answering modem)

0 1 0 1 V.23 FSK 1200bps

0 1 0 0 “ 75bps

0 0 1 1 Bell 202 FSK 1200bps

0 0 1 0 “ 150bps

0 0 0 1 DTMF, Programmed tone pair, Answer Tone, Call Progress detect

0 0 0 0 Receiver disabled

Rx Mode Register b11-9: Rx level

These three bits set the gain of the Rx Gain Control block.

Bit 11 Bit 10 Bit 9

1 1 1 0dB

1 1 0 -1.5dB

1 0 1 -3.0dB

1 0 0 -4.5dB

0 1 1 -6.0dB

0 1 0 -7.5dB

0 0 1 -9.0dB

0 0 0 -10.5dB

Rx Mode Register b8: Rx Auto-equalize (DPSK modes)

This bit controls the operation of the receive DPSK auto-equalizer. Set to 0 in FSK modes.

Bit 8 = 1 Enable auto-equalizer

Bit 8 = 0 DPSK mode: Auto-equalizer disabled

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Rx Mode Register b7-6: Rx Scrambler (DPSK modes)

These 2 bits control the operation of the Rx de-scrambler used in DPSK modes. Set both

bits to 0 in FSK modes.

Bit 7 Bit 6

1 1 De-scrambler enabled, 64 ones detect circuit enabled (normal use)

1 0 De-scrambler enabled, 64 ones detect circuit disabled

0 x De-scrambler disabled

Rx Mode Register b5-3: Rx USART Setting (DPSK and FSK modes)

These three bits select the Rx USART operating mode. The 1% and 2.3% overspeed options

apply to DPSK modes only.

b5 b4 b3

1 1 1 Rx Synchronous mode

1 1 0 Rx Start-stop mode, no overspeed

1 0 1 Rx Start-stop mode, +1% overspeed (1 in 8 missing Stop bits allowed)

1 0 0 Rx Start-stop mode, +2.3% overspeed (1 in 4 missing Stop bits allowed)

0 x x Rx USART function disabled

Rx Mode Register b2-0: Rx Data bits and parity (DPSK and FSK: Start-Stop modes)

In Start-stop mode these three bits select the number of data bits (plus any parity bit) in each received

character. These bits are ignored in Synchronous mode.

Bit 2 Bit 1 Bit 0

1 1 1 8 data bits + parity

1 1 0 8 data bits

1 0 1 7 data bits + parity

1 0 0 7 data bits

0 1 1 6 data bits + parity

0 1 0 6 data bits

0 0 1 5 data bits + parity

0 0 0 5 data bits

Rx Mode Register b2-0: Tones Detect mode

In Tones Detect Mode (Rx Mode Register b15-12 = 0001) b8-3 should be set to 000000

Bits 2-0 select the detector type.

Bit 2 Bit 1 Bit 0

1 0 0 Programmable Tone Pair Detect

0 1 1 Call Progress Detect

0 1 0 2100, 2225Hz Answer Tone Detect

0 0 1 DTMF Detect

0 0 0 Disabled

4.10.5 Tx Data Register

Tx Data Register: 8-bit write-only. C-BUS addresses $E3 and $E4

Bit: 7 6 5 4 3 2 1 0

Data bits to be transmitted

In Synchronous Tx data mode this register contains the next 8 data bits to be transmitted. Bit 0 is transmitted

first.

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In Tx Start-Stop mode the specified number of data bits will be transmitted from this register (b0 first). A Start

bit, a Parity bit (if required) and Stop bit(s) will be added automatically.

This register should only be written to when the Tx Data Ready bit of the Status Register is 1.

C-BUS address $E3 should normally be used, $E4 is for implementing the V.14 overspeed transmission

requirement in Start-Stop mode, see Section 4.1.

4.10.6 Rx Data Register

Rx Data Register: 8-bit read-only. C-BUS address $E5

Bit: 7 6 5 4 3 2 1 0

Received data bits

In unformatted Rx data mode this register contains 8 received data bits, b0 of the register holding the earliest

received bit, b7 the latest.

In Rx Start-Stop data mode this register contains the specified number of data bits from a received character,

b0 holding the first received bit.

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4.10.7 Status Register: 16-bit read-only C-BUS address $E6

Bits 15 and 13-0 of this register are cleared to 0 by a General Reset command, in Powersave mode, or when

b7 (Reset) of the General Control Register is 1.

Bit: 15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 0

IRQ RD PF See below for uses of these bits

The meanings of the Status Register bits 12-0 depend on whether the receive circuitry is in Modem or Tones

Detect mode.

Status Register bits:

Rx Modem modes Rx Tones Detect modes ** IRQ

Mask bit

Bit 15 IRQ

Bit 14 Set to 1 on Ring Detect Bit 5

Bit 13 Programming Flag bit. See 1.5.10.8 Bit 4

Bit 12 Set to 1 on Tx data ready.

Cleared by write to Tx Data Register

Bit 3

Bit 11 Set to 1 on Tx data underflow.

Cleared by write to Tx Data Register

Bit 3

Bit 10 1 when energy is detected in Rx

modem signal band

1 when energy is detected in Call

Progress band or when both

programmable tones are detected

Bit 2

b9 1 when double DPSK dibit 00,11 is

detected in 1200bps DPSK mode,

or when ‘1010..’ pattern is detected

in all other modes

0 b1

b8 See following table 0 b1

b7 See following table 1 when 2100Hz answer tone or the

second programmable tone is

detected

b6 Set to 1 on Rx data ready.

Cleared by read from Rx Data

1 when 2225Hz answer tone or the

first programmable tone is detected

b5 Set to 1 on Rx data overflow.

Cleared by read from Rx Data

1 when DTMFcode is detected b0

b4 Set to 1 on Rx framing error 0 -

b3 Set to 1 on even Rx parity Rx DTMF code b3, see table -

b2 DPSK Rx signal quality b2 Rx DTMF code b2 -

b1 DPSK Rx signal quality b1 Rx DTMF code b1 -

b0 DPSK Rx signal quality b0

or FSK frequency demodulator

output

Rx DTMF code b0 -

Notes:

** This column shows the corresponding IRQ Mask bits in the General Control Register. A 0 to 1

transition on any of the Status Register bits 14-5 will cause the IRQ bit b15 to be set to 1 if the

corresponding IRQ Mask bit is 1. The IRQ bit is cleared by a read of the Status Register or a General

Reset command or by setting b7 or b8 of the General Control Register to 1.

The operation of the data demodulator and pattern detector circuits within the CMX867 does not

depend on the state of the Rx energy detect function.

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Decoding of Status Register b8,7 in Rx Modem Modes, see also Figure 13.

b8 b7 De-scrambler disabled De-scrambler enabled (DPSK modes only)

1 1 - Scrambled 1s

1 0 Unscrambled 0s Scrambled 0s

0 1 Unscrambled 1s Unscrambled 1s

0 0 - -

When the descrambler is enabled then detection of continuous unscrambled 1s will inhibit the continuous

scrambled 1s detector.

Rx signal

Status Register bit 5,6,7,8,9 or 10

Status Register bit 15 (IRQ)

IRQ output

Notes:

Detect time

Note 1

Note 3

Note 2

1. IRQ will go high only if appropriate IRQ Mask bit in General Control Register is set.

The IRQ bit is cleared by a read of the Status Register.

2. output will go low when IRQ bit high if EN bit of General Control Register is setIRQ IRQ

3. In Rx Modem modes Status Register bits 5 and 6 are set by a Rx Data Ready or

Rx Data Underflow event and cleared by a read of the Rx Data Register

Hold time

Figure 16: Operation of Status Register bits 5-10

The IRQ output pin will be pulled low (to VSS) when the IRQ bit of the Status Register and the EN IRQ bit

(b6) of the General Control Register are both 1.

Changes to Status Register bits caused by a change of Tx or Rx operating mode can take up to 150µs to take

effect.

In Powersave mode or when the Reset bit (b7) of the General Control Register is 1 the Ring Detect bit (b14)

continues to operate but all other bits will be 0.

The ‘continuous 0’ and ‘continuous 1’ detectors monitor the Rx signal after the DPSK descrambler, (see

Figure 13) and hence will detect continuous 1s or 0s if the descrambler is disabled, or continuous scrambled

1s or 0s if the descrambler is enabled.

In DPSK Rx modem modes b2-0 of the Status Register contain a value indicative of the received signal BER,

see Figure 18. In Rx FSK modem modes bits 2 and 1 will be zero and b0 will show the output of the

frequency demodulator, updated at 8 times the nominal data rate.

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Rx DTMF bursts

Status Register bit 5

Status Register bits 3-0

Status Register bit 15 (IRQ)

Code for burst A Code for burst B

IRQ output

Notes:

Note 1

Note 2

1. IRQ will go high only if the IRQ Mask bit b0 in the General Control Register is set.

The IRQ bit is cleared by a read of the Status Register.

2. output will go low when IRQ bit high if EN bit of General Control Register is setIRQ IRQ

Figure 17: Operation of Status Register in DTMF Rx Mode

b3 b2 b1 b0 Low frequency (Hz) High frequency (Hz) Keypad symbol

0 0 0 0 941 1633 D

0 0 0 1 697 1209 1

0 0 1 0 697 1336 2

0 0 1 1 697 1477 3

0 1 0 0 770 1209 4

0 1 0 1 770 1336 5

0 1 1 0 770 1477 6

0 1 1 1 852 1209 7

1 0 0 0 852 1336 8

1 0 0 1 852 1477 9

1 0 1 0 941 1336 0

1 0 1 1 941 1209 *

1 1 0 0 941 1477 #

1 1 0 1 697 1633 A

1 1 1 0 770 1633 B

1 1 1 1 852 1633 C

Table 6: Received DTMF Code: b3-0 of Status Register

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1.E

Rx Status Re

ister BER readin

BER

Figure 18: Typical Rx BER vs. Average Status Register BER Reading (b2-0)

4.10.8 Programming Register

Programming Register : 16-bit write-only. C-BUS address $E8

This register is used to program the transmit and receive programmed tone pairs by writing appropriate

values to RAM locations within the CMX867. Note that these RAM locations are cleared by Powersave or

Reset.

The Programming Register should only be written to when the Programming Flag bit (b13) of the Status

programming action has been completed (normally within 150µs) the CMX867 will set the bit back to 1.

When programming Transmit or Receive Tone Pairs, do not change the Transmit or Receive Mode Registers

until programming is complete and the Programming Flag bit has returned to 1.

Transmit Tone Pair Programming

4 transmit tone pairs (TA to TD) can be programmed.

The frequency (max 3.4kHz) and level must be entered for each tone to be used.

Single tones are programmed by setting both level and frequency values to zero for one of the pair.

Programming is done by writing a sequence of up to seventeen 16-bit words to the Programming Register.

The first word should be 32768 (8000 hex), the following 16-bit words set the frequencies and levels and are

in the range 0 to 16383 (0-3FFF hex)

Word Tone Pair Value written

1 32768

2 TA Tone 1 frequency

3 TA Tone 1 level

4 TA Tone 2 frequency

5 TA Tone 2 level

6 TB Tone 1 frequency

7 TB Tone 1 level

- - - - - - - - - - - - - - - -

16 TD Tone 2 frequency

17 TD Tone 2 level

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The Frequency values to be entered are calculated from the formula:

3.414(Hz)frequenc

desired entered be to Value ×=

i.e. for 1kHz the value to be entered is 3414 (or 0D56 in Hex).

The Level values to be entered are calculated from the formula:

RMS

93780 Vdesired

entered be to Value ×

i.e. for 0.5VRMS at VDD = 3.0V, the value to be entered is 15630 (3D0E in Hex)

Note that allowance should be made for the transmit signal filtering in the CMX867 which attenuates the

output signal for frequencies above 2kHz by 0.25dB at 2.5kHz, by 1dB at 3kHz and by 2.2dB at 3.4kHz.

On power-up or after a reset, the tone pairs TA-TC are set to notone, and TD is set to generate 2130Hz +

2750Hz at approximately –20dBm each.

Receive Tone Pair Programming

The programmable tone pair detector is implemented as shown in Figure 19. The filters are 4th order IIR

sections. The frequency detectors measure the time taken for a programmable number of complete input

signal cycles and compare this time against programmable upper and lower limits.

Frequency

measurement

Level Detect

enable

Rx signal

Filter

Frequency

measurement

Level Detect

enable

Detector 1

Status

B10

B7Detector 2

Filter

Figure 19: Programmable Tone Detectors

input output

-a12

-a22

Z-1

-a11

-a21b22

b12

b02

Z-1

b21

b11

b01

Z-1

H(z) = Fsample = 9600Hz

b0 .z + b1 .z-1 + b2 .z-2

11 1

1 + a1 .z-1 + a2 .z-2

b0 .z + b1 .z-1 + b2 .z-2

22 2

1 + a1 .z-1 + a2 .z-2

Figure 20: Filter Implementation

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Programming is done by writing a sequence of twenty-seven 16-bit words to the Programming Register.

The first word should be 32769 (8001 hex), the following twenty-six 16-bit words set the frequencies and

levels and are in the range 0 to 32767 (0000-7FFF hex).

Word Value written Word Value written

1 32769

2 Filter #1 coefficient b21 15 Filter #2 coefficient b21

3 Filter #1 coefficient b11 16 Filter #2 coefficient b11

4 Filter #1 coefficient b01 17 Filter #2 coefficient b01

5 Filter #1 coefficient a21 18 Filter #2 coefficient a21

6 Filter #1 coefficient a11 19 Filter #2 coefficient a11

7 Filter #1 coefficient b22 20 Filter #2 coefficient b22

8 Filter #1 coefficient b12 21 Filter #2 coefficient b12

9 Filter #1 coefficient b02 22 Filter #2 coefficient b02

10 Filter #1 coefficient a22 23 Filter #2 coefficient a22

11 Filter #1 coefficient a12 24 Filter #2 coefficient a12

12 Freq measurement #1 ncycles 25 Freq measurement #2 ncycles

13 Freq measurement #1 mintime 26 Freq measurement #2 mintime

14 Freq measurement #1 maxtime 27 Freq measurement #2 maxtime

The coefficients are entered as 15-bit signed (two’s complement) integer values (the most significant bit of the

16-bit word entered should be zero) calculated as 8192 * coefficient value from the user’s filter design

program (i.e. this allows for filter design values of -1.9999 to +1.9999).

The design of the IIR filters should make allowance for the fixed receive signal filtering in the CMX867 which

has a low pass characteristic above 1.5kHz of 0.4dB at 2kHz, 1.2dB at 2.5kHz, 2.6dB at 3kHz and 4.1dB at

3.4kHz.

‘ncycles’ is the number of signal cycles for the frequency measurement.

‘mintime’ is the smallest acceptable time for ncycles of the input signal expressed as the number of 9.6kHz

timer clocks. i.e. ‘mintime’ = 9600 * ncycles / high frequency limit

‘maxtime’ is the highest acceptable time for ncycles of the input signal expressed as the number of 9.6kHz

timer clocks. i.e. ‘maxtime’ = 9600 * ncycles / low frequency limit

The level detectors include hysteresis. The threshold levels - measured at the 2 or 4-wire line with unity gain

filters, using the line interface circuits described in Section 3.2, 1.0 dB line coupling transformer loss and with

the Rx Gain Control block set to 0dB - are nominally:

‘Off’ to ‘On’ -44.5dBm

‘On’ to ‘Off’ -47.0dBm

Note: If any changes are made to the programmed values while the CMX867 is running in Programmed

Tone Detect mode they will not take effect until the CMX867 is next switched into Programmed Tone Detect

mode.

On power-up or after a reset, the programmable tone pair detector is set to act as a simple 2130Hz + 2750Hz

detector.

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5 Application Notes

5.1 V.22 Calling Modem Application

This section describes how the CMX867 can be used in a V.22 Calling modem application, employing V.25

automatic answering and the V.22 recommended handshake sequence. This attempts to establish a 1200bps

connection.

1. Ensure that the CMX867 is powered up. Set the Tx Mode Register to DTMF/Tones mode (set to ‘No

Tone’ at this time), and the Rx Mode Register to Call Progress Detect mode.

2. Connect the line (go off hook) then dial the required number using the DTMF generator, monitoring for

call progress signals (dial tone, busy, etc). Change to Answer Tone Detect mode.

3. On detection of the 2100Hz answer tone wait for it to end then wait for the 2225Hz answer tone detector

to respond. (The ‘2225Hz’ answer tone detector will recognize unscrambled binary 1s at 1200bps High

Band as well as 2225Hz). When unscrambled binary 1s or 2225Hz have been received for 155ms set a

456ms timer.

4. When the 456ms timer expires check that the 2225Hz or unscrambled 1s is still being received, then set

the Tx Mode Register for V.22 1200bps Low Band transmission of scrambled 1s (continuous 1s with the

scrambler enabled). Also set the Rx Mode register to V.22 1200bps High Band receive, descrambler

enabled and Rx USART disabled.

5. When scrambled 1s (at 1200bps) have been received for 270ms enable the Rx USART, set a 765ms

timer and load the Tx Data Register with the first data to be transmitted.

6. When the timer expires set the Tx Mode Register for Start-Stop or Synchronous transmission of data from

the Tx Data Buffer. This will start transmission of the data loaded in step 5.

7. A 1200bps data connection has now been established.

5.2 V.22 Answering Modem Application

This section describes how the CMX867 can be used in a V.22 Answering modem application, employing

V.25 automatic answering and the V.22 recommended handshake sequence. This attempts to establish a

1200 bps connection.

1. It is assumed that the CMX867 will be in Powersave mode, with the Ring Detector circuits monitoring the

line.

2. When a ring signal is detected connect the line (go off hook), set a 2150ms timer and power up the

CMX867, setting the Tx Mode Register to DTMF/Tones mode (set for ‘no tone’ at this time) and the Rx

Mode Register to V.22 1200bps Low Band receive, descrambler enabled, Rx USART disabled.

3. When the 2150ms timer expires set the Tx Mode Register to transmit the 2100Hz answer tone and set a

3300ms timer.

4. When the 3300ms timer expires set the Tx Mode Register to no tone and set a 75ms timer.

5. When the 75ms timer expires set the Tx Mode Register for V.22 High Band 1200bps transmission of

unscrambled 1s. Monitor the received signal for scrambled 1s.

6. When scrambled 1s have been detected for 270ms, set the Tx Mode Register to V.22 High Band

1200bps scrambled 1s transmission and set a 765ms timer and enable the Rx USART.

7. Load the Tx Data Buffer with the first data to be transmitted.

8. When the 765ms timer expires set the Tx Mode Register for Start-Stop or Synchronous transmission of

data from the Tx Data Buffer. This will start transmission of the data loaded in step 7.

9. A 1200bps data connection has now been established.

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6 Performance Specification

6.1 Electrical Performance

6.1.1 Absolute Maximum Ratings

Exceeding these maximum ratings can result in damage to the device.

Min. Max. Units

Supply (VDD - VSS) -0.3 7.0 V

Voltage on any pin to VSS -0.3 VDD + 0.3 V

Current into or out of VDD and VSS pins -50 +50 mA

Current into RDRV pin (RDRV pin low) +50 mA

Current into or out of any other pin -20 +20 mA

D2 / P4 Package

Total Allowable Power Dissipation at TAMB = 25°C 1000 mW

Derating above 25°C 13 mW/°C above 25°C

Storage Temperature -55 +125 °C

Operating Temperature -40 +85 °C

E2 Package

Total Allowable Power Dissipation at TAMB = 25°C 400 mW

Derating above 25°C 5.3 mW/°C above 25°C

Storage Temperature -55 +125 °C

Operating Temperature -40 +85 °C

6.1.2 Operating Limits

Correct operation of the device outside these limits is not implied.

Notes Min. Max. Units

Supply (VDD - VSS) 2.7 5.5 V

Operating Temperature -40 +85 °C

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6.1.3 Operating Characteristics

Details in this section represent design target values and are not currently guaranteed.

For the following conditions unless otherwise specified:

VDD = 2.7V to 5.5V at TAMB = -40 to +85°C,

Xtal Frequency = 11.0592 or 12.288MHz ± 0.01% (100ppm)

0dBm corresponds to 775mVRMS.

Notes Min. Typ. Max. Units

DC Parameters

IDD (Powersave mode) 1, 2 - - TBD µA

(Reset but not powersave, VDD = 3.0V) 1, 3 - 2.0 TBD mA

(Reset but not powersave, VDD = 5.0V) 1, 3 - 3.5 TBD mA

(Running, VDD = 3.0V) 1 - 3.5 TBD mA

(Running, VDD = 5.0V) 1 - 6.5 TBD mA

Logic '1' Input Level 4 70% - - VDD

Logic '0' Input Level 4 - - 30% VDD

Logic Input Leakage Current

(VIN = 0 to VDD),

(excluding XTAL/CLOCK input)

-1.0 - +1.0

µA

Output Logic '1' Level (lOH = 2 mA) 80% - - VDD

Output Logic '0' Level (lOL = -3 mA) - - 0.4 V

IRQ output 'Off' State Current

(VOUT = VDD)

- - 1.0

µA

RD and RT pin Schmitt trigger input high-

goingthreshold (VtHI) (see Figure 21)

0.56VDD - 0.56VDD + 0.6V V

RD and RT pin Schmitt trigger input low-

going threshold (VtLO) (see Figure 21)

0.44VDD - 0.6V - 0.44VDD V

RDRV ‘ON’ resistance to VSS

(VDD= 3.0V)

- - TBD

Ω

RDRV ‘OFF’ resistance to VDD

(VDD= 3.0V)

- - TBD

Ω

XTAL/CLOCK Input

(timings for an external clock input)

'High' Pulse Width 30 - - ns

'Low' Pulse Width 30 - - ns

Transmit DPSK Modes

(V.22, Bell 212A)

Carrier frequency, high band 5 - 2400 - Hz

Carrier frequency, low band 5 - 1200 - Hz

Baud rate 6 - 600 - Baud

Bit rate 6 - 1200/600 - bps

550Hz guard tone frequency 548 550 552 Hz

550Hz guard tone level with respect to

data signal

-4.0 -3.0 -2.0 dB

1800Hz guard tone frequency 1797 1800 1803 Hz

1800Hz guard tone level with respect to

data signal

-7.0 -6.0 -5.0 dB

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Notes Min. Typ. Max. Units

Transmit V.21 FSK Mode

Baud rate 6 - 300 - Baud

Mark (logical 1) frequency, high band 1647 1650 1653 Hz

Space (logical 0) frequency, high band 1847 1850 1853 Hz

Mark (logical 1) frequency, low band 978 980 982 Hz

Space (logical 0) frequency, low band 1178 1180 1182 Hz

Transmit Bell 103 FSK Mode

Baud rate 6 - 300 - Baud

Mark (logical 1) frequency, high band 2222 2225 2228 Hz

Space (logical 0) frequency, high band 2022 2025 2028 Hz

Mark (logical 1) frequency, low band 1268 1270 1272 Hz

Space (logical 0) frequency, low band 1068 1070 1072 Hz

Transmit V.23 FSK Mode

Baud rate 6 - 1200/75 - Baud

Mark (logical 1) frequency, 1200 baud 1298 1300 1302 Hz

Space (logical 0) frequency, 1200 baud 2097 2100 2103 Hz

Mark (logical 1) frequency, 75 baud 389 390 391 Hz

Space (logical 0) frequency, 75 baud 449 450 451 Hz

Transmit Bell 202 FSK Mode

Baud rate 6 - 1200/150 - Baud

Mark (logical 1) frequency, 1200 baud 1198 1200 1202 Hz

Space (logical 0) frequency, 1200 baud 2197 2200 2203 Hz

Mark (logical 1) frequency, 150 baud 386 387 388 Hz

Space (logical 0) frequency, 150 baud 486 487 488 Hz

DTMF/Single Tone Transmit

Tone frequency accuracy -0.2 - +0.2 %

Distortion 7 - 1.0 2.0 %

Transmit Output Level

Modem and Single Tone modes 7 -4.0 -3.0 -2.0 dBm

DTMF mode, Low Group tones 7 -2.0 -1.0 0.0 dBm

DTMF: level of High Group tones with

respect to Low Group

7 +1.0 +2.0 +3.0 dB

Tx output buffer gain control accuracy 7 -0.25 - +0.25 dB

Receive DPSK Modes

(V.22, Bell 212A)

Carrier frequency (high band) 2392 2400 2408 Hz

Carrier frequency (low band) 1192 1200 1208 Hz

Baud rate 9 - 600 - Baud

Bit rate 9 - 1200/600 - bps

Receive V.21 FSK Mode

Acceptable baud rate 297 300 303 Baud

Mark (logical 1) frequency, high band 1638 1650 1662 Hz

Space (logical 0) frequency, high band 1838 1850 1862 Hz

Mark (logical 1) frequency, low band 968 980 992 Hz

Space (logical 0) frequency, low band 1168 1180 1192 Hz

Receive Bell 103 FSK Mode

Acceptable baud rate 297 300 303 Baud

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Notes Min. Typ. Max. Units

Mark (logical 1) frequency, high band 2213 2225 2237 Hz

Space (logical 0) frequency, high band 2013 2025 2037 Hz

Mark (logical 1) frequency, low band 1258 1270 1282 Hz

Space (logical 0) frequency, low band 1058 1070 1082 Hz

Receive V.23 FSK Mode

1200 baud

Acceptable baud rate 1188 1200 1212 Baud

Mark (logical 1) frequency 1280 1300 1320 Hz

Space (logical 0) frequency 2080 2100 2120 Hz

75 baud

Acceptable baud rate 74 75 76 Baud

Mark (logical 1) frequency 382 390 398 Hz

Space (logical 0) frequency 442 450 458 Hz

Receive Bell 202 FSK Mode

1200 baud

Acceptable baud rate 1188 1200 1212 Baud

Mark (logical 1) frequency 1180 1200 1220 Hz

Space (logical 0) frequency 2180 2200 2220 Hz

150 baud

Acceptable baud rate 148 150 152 Baud

Mark (logical 1) frequency 377 387 397 Hz

Space (logical 0) frequency 477 487 497 Hz

Rx Modem Signal

(FSK and DPSK Modes)

Signal level 10 -45 - -9 dBm

Signal to Noise Ratio (noise flat 300-

3400Hz)

20 - - dB

Rx Modem ‘0011’ Dibit Pattern Detector

(1200bps DPSK mode)

Will detect pattern lasting for 90.0 - ms

Will not detect pattern lasting for 72.0 ms

Hold time (minimum detector ‘On’ time) 5.0 - ms

Rx Modem Energy Detector

Detect threshold (‘Off’ to ‘On) 10,11 - - -43.0 dBm

Undetect threshold (‘On’ to ‘Off’) 10,11 -48.0 - - dBm

Hysteresis 10,11 2.0 - - dB

Detect (‘Off’ to ‘On’) response time

DPSK modes 10,11 10.0 - 35.0 ms

300 and 1200 baud FSK modes 10,11 8.0 - 30.0 ms

150 and 75 baud FSK modes 10,11 16.0 - 60.0 ms

Undetect (‘On’ to ‘Off’) response time

DPSK modes 10,11 10.0 - 55.0 ms

300 and 1200 baud FSK modes 10,11 10.0 - 40.0 ms

150 and 75 baud FSK modes 10,11 20.0 - 80.0 ms

Rx Answer Tone Detectors

Detect threshold (‘Off’ to ‘On) 10,12 - - -43.0 dBm

Undetect threshold (‘On’ to ‘Off’) 10,12 -48.0 - - dBm

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Notes Min. Typ. Max. Units

Hysteresis 10,12 2.0 - - dB

Detect (‘Off’ to ‘On’) response time 10,12 30.0 33.0 45.0 ms

Undetect (‘On’ to ‘Off’) response time 10,12 7.0 18.0 25.0 ms

2100Hz detector

‘Will detect’ frequency 2050 - 2160 Hz

‘Will not detect’ frequency - - 2000 Hz

2225Hz detector

‘Will detect’ frequency 2160 - 2285 Hz

‘Will not detect’ frequency 2335 - - Hz

Rx Call Progress Energy Detector

Bandwidth (-3dB points) See Figure 8 275 - 665 Hz

Detect threshold (‘Off’ to ‘On) 10,13 - - -37.0 dBm

Undetect threshold (‘On’ to ‘Off’) 10,13 -42.0 - - dBm

Hysteresis 10,13 2.0 - - dB

Detect (‘Off’ to ‘On’) response time 10,13 30.0 36.0 45.0 ms

Undetect (‘On’ to ‘Off’) response time 10,13 6.0 8.0 50.0 ms

DTMF Decoder

Valid input signal levels

(each tone of composite signal) 10 -30.0 - 0.0 dBm

Not decode level

(either tone of composite signal) 10 - - -36.0 dBm

Twist = High Tone/Low Tone -10.0 - 6.0 dB

Frequency Detect Bandwidth ±1.8 - %

Frequency Not Detect Bandwidth ±3.5 %

Max level of low frequency noise

(i.e. dial tone)

Interfering signal frequency <= 550Hz 14 - - 0.0 dB

Interfering signal frequency <= 450Hz 14 - - 10.0 dB

Interfering signal frequency <= 200Hz 14 - - 20.0 dB

Max. noise level with respect to signal 14,15 - - -10.0 dB

DTMF detect response time - - 40.0 ms

DTMF de-response time - - 30.0 ms

Status Register b5 high time 14.0 - - ms

‘Will Detect’ DTMF signal duration 40.0 - - ms

‘Will Not Detect’ DTMF signal duration - 25.0 - ms

Pause length detected 30.0 - - ms

Pause length ignored - - 15.0 ms

Receive Input Amplifier

Input impedance (at 100Hz) 10.0 MΩ

Open loop gain (at 100Hz) 10000 V/V

Rx Gain Control Block accuracy -0.25 +0.25 dB

Operating Characteristics Notes:

1. At 25°C, not including any current drawn from the CMX867 pins by external circuitry other than X1, C1

and C2.

2. All logic inputs at VSS except for RT and CS inputs which are at VDD.

3. General Mode Register b8 and b7 both set to 1.

4. Excluding RD and RT pins.

Low Power V.22 Modem 38 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

5. % carrier frequency accuracy is the same as XTAL/CLOCK % frequency accuracy.

6. Tx signal % baud or bit rate accuracy is the same as XTAL/CLOCK % frequency accuracy.

7. Measured between TXA and TXA pins with Tx Level Control gain set to 0dB, 1k2Ω load between TXA

and TXA , at VDD = 3.0V (levels are proportional to VDD - see Section 3.2). Level measurements for all

modem modes are performed with random transmitted data and without any guard tone.

0dBm = 775mVRMS.

8. Measured on the 2 or 4-wire line using the line interface circuits described in Section 3.2 with the Tx line

signal level set to -10dBm for DPSK, FSK or single tones, -6dBm and -8dBm for DTMF tones. Excludes

any distortion due to external components such as the line coupling transformer.

9. These are the bit and baud rates of the line signal; the acceptable tolerance is ±0.01%.

10. Rx 2 or 4-wire line signal level assuming 1dB loss in line coupling transformer with Rx Gain Control block

set to 0dB and external components as Section 3.2.

11. Thresholds and times measured with random data for DPSK modes, continuous binary ‘1’ for all FSK

modes. Fixed compromise line equalizer enabled. Signal switched between off and -33dBm.

12. ‘Typical’ value refers to 2100Hz or 2225Hz signal switched between off and -33dBm. Times measured

with respect to received line signal.

13. ‘Typical’ values refers to 400Hz signal switched between off and -33dBm.

14. Referenced to DTMF tone of lower amplitude.

15. Flat Gaussian Noise in 300-3400Hz band.

Low Power V.22 Modem 39 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

0.5

1.5

2.5

3.5

2.5 3 3.5 4 4.5 5 5.5

VDD

VIN

Vthi

Vtlo

Figure 21: Typical Schmitt Trigger Input Voltage Thresholds vs. VDD

-70

-60

-50

-40

-30

-20

-10

10 100 1000 10000 100000

dBm

Bell 202

Figure 22: Maximum Out of Band Tx Line Energy Limits (see Operating Characteristics Note 8)

Low Power V.22 Modem 40 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

6.1.3.1 Timing

C-BUS Timings (See Figure 23) Notes Min. Typ. Max. Units

tCSE CS -Enable to Clock-High time 100 - - ns

tCSH Last Clock-High to CS -High time 100 - - ns

tLOZ Clock-Low to Reply Output enable time 0.0 - - ns

tHIZ CS -High to Reply Output 3-state time - - 1.0 µs

tCSOFF CS -High Time between transactions 1.0 - - µs

tNXT Inter-Byte Time 200 - - ns

tCK Clock-Cycle time 200 - - ns

tCH Serial Clock-High time 100 - - ns

tCL Serial Clock-Low time 100 - - ns

tCDS Command Data Set-Up time 75.0 - - ns

tCDH Command Data Hold time 25.0 - - ns

tRDS Reply Data Set-Up time 50.0 - - ns

tRDH Reply Data Hold time 0.0 - - ns

Maximum 30pF load on each C-BUS interface line.

Note: These timings are for the latest version of the C-BUS as embodied in the CMX867, and allow faster

transfers than the original C-BUS timings given in CML Publication D/800/Sys/3 July 1994.

HI-Z

= Level not important or undefined

SERIAL CLOCK

CSE

CDS

RDS

CDH

RDH

70% V

30% V

CSH

LOZ

COMMAND DATA

COMMAND

DATA

SERIAL

CLOCK

DATA

REPLY DATA

7654321

07654321

7654321

NXT

CSOFF

HIZ

Figure 23: C-BUS Timing

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2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

6.2 Packaging

Figure 24: 24-pin SOIC (D2) Mechanical Outline:

Order as part no. CMX867D2

Figure 25: 24-pin TSSOP (E2) Mechanical Outline:

Order as part no. CMX867E2

Low Power V.22 Modem 42 CMX867 Advance Information

2000 MX-COM, Inc. www.mxcom.com tel: 800 638 5577 336 744 5050 fax: 336 744 5054 Doc. # 20480219.001

4800 Bethania Station Road, Winston-Salem, NC 27105-1201 USA All trademarks and service marks are held by their respective companies.

Figure 26: 24-pin DIP (P4) Mechanical Outline:

Order as part no. CMX867P4