73M1903-IMR/F datasheet, PDF - EEWORLD Datasheet

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73M1903-IMR/F: Descriptiontelecom line management ics modem afe V.22bis-V.92; CategoryOther integrated circuit (IC) Consumption circuit; File Size483KB，47 Pages; ManufacturerMaxim; Websitehttps://www.maximintegrated.com/en.html; Environmental Compliance

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73M1903-IMR/F Overview

telecom line management ics modem afe V.22bis-V.92

73M1903-IMR/F Parametric

Parameter Name	Attribute value
Is it lead-free?	Contains lead
Is it Rohs certified?	conform to
Maker	Maxim
Parts packaging code	QFN
package instruction	QFN-32
Contacts	32
Reach Compliance Code	compliant
ECCN code	EAR99
Samacsys Description	Modem Analog Front End
Commercial integrated circuit types	CONSUMER CIRCUIT
JESD-30 code	S-PQCC-N32
length	5 mm
Humidity sensitivity level	1
Number of functions	1
Number of terminals	32
Maximum operating temperature	85 °C
Minimum operating temperature	-40 °C
Package body material	PLASTIC/EPOXY
encapsulated code	HVQCCN
Package shape	SQUARE
Package form	CHIP CARRIER, HEAT SINK/SLUG, VERY THIN PROFILE
Peak Reflow Temperature (Celsius)	NOT SPECIFIED
Certification status	Not Qualified
Maximum seat height	0.9 mm
Maximum supply voltage (Vsup)	3.6 V
Minimum supply voltage (Vsup)	3 V
surface mount	YES
Temperature level	INDUSTRIAL
Terminal form	NO LEAD
Terminal pitch	0.5 mm
Terminal location	QUAD
Maximum time at peak reflow temperature	NOT SPECIFIED
width	5 mm
Base Number Matches	1

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73M1903

Modem Analog Front End

Simplifying System Integration

DATA SHEET

March 2010

DESCRIPTION

The Teridian 73M1903 Analog Front End (AFE) IC

includes fully differential hybrid driver outputs, which

connect to the telephone line interface through a

transformer-based DAA. The receive pins are also

fully differential for maximum flexibility and

performance. This arrangement allows for the

design of a high performance hybrid circuit to

improve signal to noise performance under low

receive level conditions, and compatibility with any

standard transformer intended for PSTN

communications applications.

The device incorporates a programmable sample

rate circuit to support soft modem and DSP based

implementations of all speeds up to V.92 (56 kbps).

The sampling rates supported are from 7.2 kHz to

14.4 kHz by programming pre-scaler NCO and PLL

NCO.

The 73M1903 device incorporates a digital host

interface that is compatible with the serial ports

found on most commercially available DSPs and

processors and exchanges both payload and control

information with the host.

Cost-saving features of the device include an input

reference frequency circuit, which accepts a range

of crystals from 9-27 MHz. It also accepts external

reference clock values between 9-40 MHz

generated by the host processor. In most

applications, this eliminates the need for a dedicated

crystal oscillator and reduces the bill of material

(BOM).

The 73M1903 also supports two analog loop back

and one digital loop back test modes.

VBG

(HYBRID)

TXAP

TXAN

FEATURES

•

Up to 56 kbps (V.92) performance

Programmable sample rates (7.2 - 14.4 kHz)

Reference clock range of 9-40 MHz

Crystal frequency range of 9-27 MHz

Host synchronous serial interface operation

Pin compatible with 73M2901CL/CE

modems

Low power modes

On board line interface drivers

Fully differential receiver and transmitter

Drivers for transformer interface

3.0 V – 3.6 V operation

5 V tolerant I/O

Industrial temperature range (-40 to +85

°C)

JATE compliant transmit spectrum

Package options:

•

32-pin QFN

•

20-pin TSSOP

RoHS compliant (6/6) lead-free packages

•

APPLICATIONS

•

Set Top Boxes

Personal Video Recorders (PVR)

Multifunction Peripherals (MFP)

Fax Machines

Internet Appliances

Game Consoles

Point of Sale Terminals

Automatic Teller Machines

Speaker Phones

RF Modems

Transmit

Drivers/

Filters

Receive

Mux/

Filters

DAA

Controls

Analog

Sigma

Delta

Ref.

SCLK

SDIN

RXAP

RXAN

DAC

Control

Registers

Serial

Port

SDOUT

FSB

GPIO

HOOK

Clocks

Control

Logic

Crystal

Rev. 2.1

73M1903 Data Sheet

DS_1903_032

Table of Contents

Signal Description ......................................................................................................................... 4

1.1 Serial Interface ........................................................................................................................ 5

Control and Status Registers ........................................................................................................ 8

2.1 GPIO .................................................................................................................................... 10

2.1.1 GPIO Data (GPIO): Address 02h .............................................................................. 10

2.1.2 GPIO Direction (DIR): Address 03h .......................................................................... 10

2.2 Analog I/O............................................................................................................................. 10

2.2.1 Control Register (CTRL 11): Address 0Bh ................................................................. 11

2.2.2 Control Register (CTRL 12): Address 0Ch ................................................................. 11

2.2.3 Control Register (CTRL 13): Address 0Dh ................................................................. 12

2.2.4 Control Register (CTRL 14): Address 0Eh ................................................................. 12

Clock Generation ......................................................................................................................... 13

3.1 Crystal Oscillator and Pre-scaler NCO................................................................................... 13

3.1.1 Control Register (CTRL 8): Address 08h.................................................................... 13

3.1.2 Control Register (CTRL 9): Address 09h.................................................................... 13

3.1.3 Control Register (CTRL 10): Address 0Ah ................................................................. 13

Modem Receiver .......................................................................................................................... 18

Modem Transmitter ..................................................................................................................... 21

5.1 Transmit Levels..................................................................................................................... 22

5.2 Transmit Power - dBm........................................................................................................... 23

5.3 Control Register (CTRL1): Address 00h ............................................................................... 23

5.4 Control Register (CTRL2): Address 01h ............................................................................... 24

5.5 Revision Register: Address 06h ............................................................................................ 24

Test Modes................................................................................................................................... 25

Power Saving Modes ................................................................................................................... 25

Electrical Specifications.............................................................................................................. 26

8.1 Absolute Maximum Ratings ................................................................................................... 26

8.2 Recommended Operating Conditions .................................................................................... 26

8.3 Digital Specifications ............................................................................................................. 27

8.3.1 DC Characteristics..................................................................................................... 27

8.3.2 AC Timing ................................................................................................................. 28

8.4 Analog Specifications ............................................................................................................ 29

8.4.1 DC Specifications ...................................................................................................... 29

8.4.2 AC Specifications ...................................................................................................... 29

8.5 Performance ......................................................................................................................... 30

8.5.1 Receiver .................................................................................................................... 30

8.5.2 Transmitter ................................................................................................................ 31

Pinouts ......................................................................................................................................... 33

9.1 32-Pin QFN Pinout ................................................................................................................ 33

9.2 20-Pin TSSOP Pinout ........................................................................................................... 34

10 Mechanical Specifications .......................................................................................................... 35

10.1 32-Pin QFN Mechanical Drawings ......................................................................................... 37

10.2 20-Pin TSSOP Mechanical Drawings .................................................................................... 38

11 Ordering Information ................................................................................................................... 39

Appendix A – 73M1903 DAA Resistor Calculation Guide .................................................................. 40

Appendix B – Crystal Oscillator.......................................................................................................... 42

Revision History .................................................................................................................................. 47

Rev. 2.1

DS_1903_032

73M1903 Data Sheet

Figures

Figure 1: Effect of the TYPE (FS mode) pin on

with SckMode = 0....................................................... 7

Figure 2: Control Frame Position versus SPOS........................................................................................ 7

Figure 3: Serial Port Timing Diagram ....................................................................................................... 9

Figure 4: Analog Block Diagram............................................................................................................. 11

Figure 5: Clock Generation .................................................................................................................... 17

Figure 6: Overall Receiver Frequency Response ................................................................................... 19

Figure 7: Rx Passband Response.......................................................................................................... 19

Figure 8: RXD Spectrum of 1 kHz Tone ................................................................................................. 20

Figure 9: RXD Spectrum of 0.5 kHz, 1 kHz, 2 kHz, 3 kHz and 3.5 kHz Tones of Equal Amplitudes ......... 20

Figure 10: Frequency Response of TX Path for DC to 4 kHz in Band Signal........................................... 21

Figure 11: Serial Port Data Timing ......................................................................................................... 28

Figure 12: 32-Pin QFN Pinout ................................................................................................................ 33

Figure 13: 20-Pin TSSOP Pin out .......................................................................................................... 34

Figure 14: 73M1903 Schematic ............................................................................................................. 35

Figure 14: 32-Pin QFN Mechanical Specifications .................................................................................. 37

Figure 15: 20-Pin TSSOP Mechanical Specifications ............................................................................. 38

Figure 16: NCO Block Diagram.............................................................................................................. 42

Figure 17: PLL Block Diagram ............................................................................................................... 43

Tables

Table 1: Inputs Selected in Regular and Alternate Multiplexer Cycles ....................................................... 4

Table 2: Memory Map .............................................................................................................................. 8

Table 3: PLL Loop Filter Settings ........................................................................................................... 11

Table 4: Kvco versus Settings at Vc=1.6 V, 25 °C .................................................................................. 13

Table 5: PLL Power Down ..................................................................................................................... 14

Table 6: Examples of NCO Settings ....................................................................................................... 14

Table 7: Clock Generation Register Settings for Fxtal = 27 MHz ............................................................ 15

Table 8: Clock Generation Register Settings for Fxtal = 24.576 MHz...................................................... 16

Table 9: Clock Generation Register Settings for Fxtal = 9.216 MHz........................................................ 16

Table 10: Clock Generation Register Settings for Fxtal = 24.000 MHz.................................................... 17

Table 11: Clock Generation Register Settings for Fxtal = 25.35 MHz...................................................... 17

Table 12: Receive Gain ......................................................................................................................... 18

Table 13: Peak to RMS Ratios for Various Modulation Types ................................................................. 23

Table 14: Serial I/F Timing ..................................................................................................................... 28

Table 15: Reference Voltage Specifications ........................................................................................... 29

Table 16: Maximum Transmit Levels ...................................................................................................... 29

Table 17: Receiver Performance Specifications ..................................................................................... 30

Table 18: Transmitter Performance Specifications ................................................................................. 31

Table 19: 32-Pin QFN Pin Definitions..................................................................................................... 33

Table 20: 20-Pin TSSOP Pin Definitions ................................................................................................ 34

Table 21: Bill of Materials ....................................................................................................................... 36

Table 22: Ordering Information .............................................................................................................. 39

Rev. 2.1

DS_1903_032

73M1903 Data Sheet

1.1

Serial Interface

The serial data port is a bi-directional port that is supported by many DSPs. Although the 73M1903 is a

peripheral to the DSP (host controller), the 73M1903 is the master of the serial port. It generates a serial

bit clock, Sclk, from a system clock, Sysclk, which is normally an output from an on-chip PLL that is

programmed by the user. The serial bit clock is derived by dividing the system clock by 18. The sclk rate,

Fsclk, is related to the frame synchronization rate, Fs, by the relationship Fsclk = 256 x Fs or Fs = Fsclk /

256 = Fsys / 18 / 256 = Fsys / 4608, where Fsys is the frequency of Sysclk. Fs is also the rate at which

both the transmit and receive data bytes are sent (received) to (by) the Host. Throughout this document

two pairs of sample rates, Fs, and crystal frequency, Fxtal, will be often cited to facilitate discussions.

They are:

1. Fxtal

= 27 MHz, Fs

= 7.2 kHz

2. Fxtal

= 18.432 MHz, Fs

= 8 kHz.

3. Fxtal

= 24.576 MHz, Fs

= 9.6 kHz – chip default.

Upon reset, until a switch to the PLL based clock, Pllclk, occurs, the system clock will be at the crystal

frequency, Fxtal, and therefore the serial bit clock will be Sclk = Fsys/18 = Fxtal/18.

Examples:

1. If Fxtal

= 27.000 MHz, then sclk=1.500 MHz and Fs=sclk/256 = 5.859375 kHz.

2. If Fxtal

= 18.432 MHz, then sclk=1.024 MHz and Fs=sclk/256 = 4.00 kHz.

3. If Fxtal

= 24.576 MHz, then sclk=1.3653 MHz and Fs=sclk/256 = 5.33 kHz.

When 73M1903 is programmed through the serial port to a desired Fs and the PLL has settled out, the

system clock will transition to the PLL-based clock in a glitch-less manner.

Examples:

1. If Fs

= 7.2 kHz, Fsys = 4608 * Fs = 33.1776 MHz and sclk = Fsys / 18 = 1.8432 MHz.

2. If Fs

= 8.0 kHz, Fsys = 4608 * Fs = 36.8640 MHz and sclk = Fsys / 18 = 2.048 MHz.

3. If Fs

= 9.6 kHz, Fsys = 4608 * Fs = 44.2368 MHz and sclk = Fsys / 18 = 2.4576 MHz.

This transition is entirely controlled by the host. Upon reset or power down of PLL and/or analog front

end, the chip will automatically run off the crystal until the host forces the transition by setting a bit in a

designated serial port register – location bit 7, 0Eh. The transition is forced on or after the second Frame

Synch period following the write to a designated PLL programming register (0Dh).

When reprogramming the PLL the host should first transition the system clock to the crystal before

reprogramming the PLL so that any transients associated with it will not adversely impact the serial port

communication.

Power saving is accomplished by disabling the analog front end by clearing bit 7 of CTRL1 (address 00h),

ENFE=0.

During the normal operation, a data

is generated by the 73M1903 at the rate of Fs. For every data

there are 16 bits transmitted and 16 bits received. The frame synchronization (FS) signal is pin

programmable for type.

can either be early or late determined by the state of the TYPE input pin.

When the TYPE pin is left open, an early

is generated in the bit clock prior to the first data bit

transmitted or received. When held low, a late FS operates as a chip select; the

signal is active for all

bits that are transmitted or received. The TYPE input pin is sampled when the reset pin is active (low)

and ignored at all other times. The final state of the TYPE pin as the reset pin is de-asserted determines

the frame synchronization mode used.

Rev. 2.1

73M1903-IMR/F Related Products

	73M1903-IMR/F	73M1903-IGVR/F
Description	telecom line management ics modem afe V.22bis-V.92	telecom line management ics modem afe V.22bis-V.92

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