ETC FM209

FM209 and FM214
9600/14400 bps MONOFAX Modem Family
The Conexant™ FM209 and FM214 MONOFAX modem family offers
synchronous 9600 or 14400 bits per second (bps) half-duplex modems with
error detection, voice and audio codecs, full-duplex speakerphone,
automatic speech recognition, DTMF reception, V.23 full-duplex, Type I
Caller ID and Type II Caller ID CAS detection. It has low power consumption
and is housed in a single 128-pin Thin Quad Flat Pack (TQFP) device
package. The modem's small size and low power consumption allow the
design of compact system enclosures for use in both office and home
environments. Table 1 lists the FM209/FM214 models and features.
Group 3 Facsimile Modem
The modem can operate over the public switched telephone network (PSTN)
through line termination provided by a data access arrangement (DAA).
The modem satisfies the requirements specified in ITU-T recommendations
V.33, V.17, V.29, V.27 ter, V.21 Channel 2 (FSK), T.4, and meets the binary
signaling requirements of T.30.
The modem operates at 14400, 12000, 9600, 7200, 4800, 2400, or 300 bps.
The modem supports the V.17 signaling rates of 14400, 12000, 9600, and
7200 bps using trellis-coded modulation (TCM). In addition, the modem
supports V.27 ter and V.17 short trains.
The modem can also perform HDLC framing according to T.30 at 14400,
12000, 9600, 7200, 4800, 2400, or 300 bps.
A FSK flag pattern (7E) detector facilitates FSK detection during V.33, V.17,
V.29, and V.27 ter reception.
The modem includes a programmable single/dual tone transmitter, a
programmable DTMF receiver, three programmable tone detectors (which
operate concurrently with the V.21 Channel 2 receiver), and a ring detector.
The transmit output level is also programmable.
Voice and Audio Codecs (-V Option)
The voice coder/decoder (codec) compresses voice at an average rate of
2.9 kbps or at a fixed rate of 4.7 kbps with near toll quality playback at
various pitch synchronized playback speeds. An average rate of 2.9 kbps
provides 24 minutes of stored voice messages in 4 Mbits of memory. This
voice codec allows the host controller to efficiently store and playback digital
incoming messages (ICMs) and outgoing messages (OGMs).
The ADPCM audio codec compresses audio signals (music/voice) at 32
kbps or 24 kbps for highest fidelity coding and reproduction.
The PCM audio codec allows the host controller to transmit and receive
uncompressed audio signals.
Data Sheet
Distinguishing Features
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Information provided by Conexant Systems, Inc. is believed to be accurate and reliable. However, no responsibility is assumed by Conexant
for its use, nor any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or
otherwise under any patent rights of Conexant other than for circuitry embodied in Conexant products. Conexant reserves the right to change
circuitry at any time without notice. This document is subject to change without notice.
Conexant and “What’s Next in Communications Technologies” are trademarks of Conexant Systems, Inc.
Product names or services listed in this publication are for identification purposes only, and may be trademarks or registered trademarks of
their respective companies. All other marks mentioned herein are the property of their respective holders.
©1999, Conexant Systems, Inc.
All Rights Reserved.
2
MD205
Selectable error correction coding allows storage in
audio grade RAMs (ARAMs). Echo cancellation
techniques employed during playback allow DTMF,
Type II Caller ID CAS detection, and tone detection
during voice/audio codec operation to support user
selectable features. Dual or single tone transmission is
supported. The coder can record messages from
either the primary or secondary IA.
Speakerphone (-S Option)
The full-duplex speakerphone provides hands-free
telephone conversation employing acoustic and line
echo cancellation and supports intercom conversation
employing dual acoustic echo cancellation.
The optional half-duplex speakerphone provides handfree telephone/intercom conversation with exceptional
high gain.
The speakerphone algorithm constantly adjusts its
parameters to deliver the best performance during
real-time conditions, allowing automatic fallback from
full-duplex to pseudo-duplex. The host controller can
easily set up the speaker mute, microphone mute,
automatic gain control (AGC) enable/disable,
microphone level, line level, speaker volume, tone
transmit, and handset functions.
Conversation recording and message playback are
supported during the speakerphone operation. DTMF
detection, Type II Caller ID CAS detection, and three
tone detectors are also supported.
Automatic Speech Recognition (-R Option)
Automatic Speech Recognition (ASR) consists of
Speaker Independent (SI) North American English
isolated word recognition for a predefined 69 word
vocabulary list, Speaker Dependent (SD) isolated word
training, and SD isolated word recognition functions.
V.23 Full-Duplex Modem and Caller ID
Both full-duplex transmit and receive (with asymmetric
1200/75 bps connection) and half-duplex (1200 bps)
asynchronous V.23 are supported, as well as both
serial and parallel interfaces to the modem. The V.23
algorithm includes an optional, programmable, receive
compromise equalizer which is active in both V.23 and
Caller ID modes.
Common applications for V.23 include France's Minitel
and Japan's Lowest Cost Routing.
General Purpose Output (GPO) and General Purpose
Input (GPI) pins are available for host assignment.
Additional design information is described in the
FM209 and FM214 MONOFAX Modem Family
Designer's Guide (Order Number 1175).
Table 1. FM209/FM214 Models and Features
Supported Features
Modem Model
FM214-VSR
FM214-VS
FM214-V
FM214
FM209-VSR
FM209-VS
FM209-V
FM209
MD205
Maximum
Line Speed
Voice and Audio
Codecs (-V)
Full Duplex
Speakerphone
(-S)
Automatic Speech
Recognition
(-R)
14.4 kbps
14.4 kbps
14.4 kbps
14.4 kbps
9.6 kbps
9.6 kbps
9.6 kbps
9.6 kbps
√
√
√
-√
√
√
--
√
√
--√
√
---
√
---√
----
3
Technical Specifications
Configurations, Symbol Rates and Data Rates
The selectable modem configurations, along with the
corresponding symbol (baud) rates and data rates, are
listed in Table 2.
Scrambler/Descrambler
The modem incorporates a self-synchronizing
scrambler/descrambler in accordance with ITU-T V.33,
V.17, V.29, and V.27 ter recommendations, depending
upon the selected configuration.
Data Encoding
The data encoding conforms to ITU-T
recommendations V.33, V.17, V.29, V.27 ter, V.21
Channel 2, and V.23.
Fixed Digital Cable Compromise Equalizer
Receive Dynamic Range
The receiver satisfies PSTN performance
requirements for received line signal levels from 0
dBm to -43 dBm measured at the Receiver Analog
Input (RXA) input. An external input buffer must be
supplied between RXA and LINEIN.
The default values of the programmable Received
Line Signal Detector (RLSD#) turn-on and turn-off
threshold levels are -43 dBm and -48 dBm,
respectively. The RLSD# threshold levels can be
programmed over the following range:
Turn on: -10 dBm to -47 dBm
Turn off: -10 dBm to -52 dBm
Automatic Adaptive Equalizer
An adaptive equalizer in ITU-T V.33, V.17, V.29 and
V.27ter modes compensates for transmission line
amplitude and group delay distortion.
Compromise equalization can improve performance
when operating over low quality lines. The modem has
a selectable fixed digital compromise cable equalizer
in the high speed receive and transmit data path.
Receiver Timing
Transmitted Data Spectrum
Carrier Recovery
The transmitted data spectrum is shaped in the
baseband by an excess bandwidth finite impulse
response (FIR) filter with the following characteristics:
The carrier recovery circuit can track a ±7 Hz
frequency offset in the received carrier.
When operating at 2400 baud, the transmitted
spectrum is shaped by a square root of 20% raised
cosine filter.
Turn-off Sequence
When operating at 1600 baud, the transmitted
spectrum is shaped by a square root of 50% raised
cosine filter.
When operating at 1200 baud, the transmitted
spectrum is shaped by a square root of 90% raised
cosine filter.
The out-of-band transmitter energy levels in the 4 - 50
kHz frequency range are below -55.0 dBm.
Transmit Level
The transmitter output level is programmable in the
DSP RAM from 0 dBm to -15.0 dBm and is accurate to
±1.0 dB. The modem adjusts the output level by
digitally scaling the output to the transmitter's digitalto-analog converter.
Turn-on Sequence
Transmitter turn-on sequence times are shown in
Table 3.
4
The timing recovery circuit can track a ±0.01%
frequency error in the associated transmit timing
source.
Transmitter turn-off sequence times are shown in
Table 4.
Clamping
Received Data (RXD) is clamped to a constant mark
whenever RLSD# is off.
V.23 Full-Duplex Features
The modem can transmit and detect Break signals
(continuous Space).
The Mark and Space frequencies are 1300 and 2100
Hz, respectively, for 1200 bps, and 390 and 450 Hz,
respectively, for 75 bps.
Additional features include an optional host
programmable Receive Compromise Equalizer for
V.23 1200 bps reception and Caller ID mode.
Default transmitter turn-on/turn-off sequence times are
10.5 ms (RTS On to CTS On) and 2.2 ms (RTS Off to
CTS Off).
MD205
Table 2. Configurations, Signaling Rates, and Data Rates
Configuration
Modulation
1
Carrier
Frequency (Hz)
±0.01%
Data Rate (bps)
±0.01%
Baud
(Symbols/Sec.)
Bits
/Symbol
Constellation
Points
2
TCM
1700 or 1800
14400
2400
6
128
2
TCM
1700 or 1800
12000
2400
5
64
2
TCM
1700 or 1800
9600
2400
4
32
V.17 7200
2
TCM
1700 or 1800
7200
2400
3
16
V.29 9600
QAM
1700
9600
2400
4
16
V.29 7200
QAM
1700
7200
2400
3
8
V.29 4800
QAM
1700
4800
2400
2
4
V.27 ter 4800
DPSK
1800
4800
1600
3
8
V.27 ter 2400
DPSK
1800
2400
1200
2
4
FSK
1650, 1850
300
300
1
–
V.17/V.33 14400
V.17/V.33 12000
V.17 9600
V.21 Channel 2 300
V.23 receive HDX
FSK
1300, 2100
1200
1200
1
–
V.23 1200/75
FSK
1300, 2100/
390, 450
1200/75
1200
1
–
Type I Caller ID
FSK
1200, 2200
1200
1200
1
–
Notes:
1.
Modulation legend:
2.
FM214 models only.
MD205
QAM:
DPSK:
FSK:
TCM:
Quadrature Amplitude Modulation
Differential Phase Shift Keying
Frequency Shift Keying
Trellis-Coded Modulation
5
Table 3. Turn-On Sequence Times
≤ ≤ Table 4. Turn-Off Sequence Times
! Notes:
2.
Hardware Interface
The Fax, Digital Telephone Answering Machine
(DTAM), and Speakerphone hardware interface
signals are shown in Figure 1, Figure 2, and Figure 3.
Any point that is active when exhibiting the relatively
more negative voltage of a two-voltage system (0 VDC
for TTL or -12 VDC for EIA/TIA-232-E) is called active
low and is represented by a small circle at the signal
point. Active low signals are indicated by a pound sign
(#), (RESET#).
Edge-triggered clocks are indicated by a small triangle
(DCLK).
A small half circle denotes open-collector (opensource or open-drain) outputs (signal IRQ#).
1.
The filter coefficients of each filter are host
programmable in RAM. The output of the tone detector
filter goes to an energy detector.
In parallel data mode, the turn-off sequence may be
extended by 8 bit times.
In HDLC mode, the turn-off sequence may be extended by
more than 8 bit times.
A clock intended to activate logic on its rising edge
(low-to-high transition) is called active high, while a
clock intended to activate logic on its falling edge
(high-to-low transition) is called active low. When clock
input is associated with a small circle, the input
activates on a falling edge. If no circle is shown, the
input activates on a rising edge.
The pin assignments for the 128-pin TQFP are shown
in Figure 4.
General Specifications
The modem power and environmental requirements
are listed in Table 5 and Table 6, respectively.
Table 5. Current and Power Requirements
Option
Current (Typ.)
@25°C
Mode
Caller ID Reception
3.3V ± 5%.
DVAA
2.5 ma
Caller ID reception (CID) allows Customer Premises
Equipment (CPE) to receive a calling party’s directory
number which includes the date and time of the call.
For Type I Caller ID this information is contained in the
first 4-second silent interval in the ring cycle. For Type
II Caller ID support an ACK signal is sent by the CPE
in response to a CAS tone, after which the calling
party information from the Stored Program Control
Switching System (SPCS) can be received by the
CPE.
VDD
Basic
50 ma
VDD
-V
72 ma
VDD
- VS
80 ma
Tone Generation
The modem can generate voice-band single or dual
tones from 0 Hz to 4800 Hz with a resolution of 0.15
Hz and an accuracy of 0.01%. Tones over 3000 Hz
are attenuated. Dual tone generation allows the
modem to operate as a programmable DTMF dialer.
Tone Detectors
All three tone detectors operate in all receive modes.
The tone detectors can also operate as one 12th order
filter.
6
5V ± 5% VGG
5.5 ma
Basic
.25 ma
-V
.30 ma
- VS
.30 ma
Note: Input Ripple ≤0.1 Vpeak-peak. The
amplitude of any frequency between 20
kHz and 150 kHz must be less than 500
µVpeak.
Table 6. Environmental Requirements
Parameter
Temperature
Operating
Storage
Relative Humidity
Specification
0°C to +70°C (32°F to 158°F)
-55°C to +125°C (-67°F to 257°F)
Up to 90% non-condensing, or a wet bulb
temperature up to 35°C, whichever is less.
MD205
Software Interface
Modem functions are implemented in firmware
executing in the modem DSP. The DSP RAM interface
memory bits, access functions, codes, and registers
are defined in the Designer’s Guide.
Interface Memory
The DSP communicates with the host processor by
means of a dual-port, interface memory. This interface
memory contains thirty-two 8-bit registers, labeled
register 00h through 1Fh. Each register can be read or
written by the host and the DSP.
The host controls the modem operation by writing
control bits to DSP interface memory and writing
parameter values to DSP RAM through interface
memory. The host monitors the modem operation by
reading status bits from DSP interface memory and
reading parameter values from DSP RAM through
interface memory. An interface memory interrupt is
provided.
DSP RAM Access
The DSP contains 16-bit word RAM. Because the DSP
is optimized for performing complex arithmetic, the
RAM is organized into real (X RAM) and imaginary (Y
RAM) parts. The host processor can read or write both
the X RAM and the Y RAM.
DSP interface memory mediates data exchange
between the host and DSP RAM. The address stored
in interface memory RAM address registers by the
host determines the DSP RAM address for data
access.
MD205
7
TXD
OffHook
RXD
Talk
DCLK
RINGD
USART
(Optional)
RTS#
LINEOUT
CTS#
LINEIN
TELEPHONE
LINE
DAA
RLSD#
SPKRP
SPKRM
SPEAKER
DRIVER
(Optional)
READ#
FM209/214
MONOFAX
MODEM
WRITE#
DATA BUS
HOST
Processor
(DTE)
ADDR. BUS
DECODER
CS#
RESET#
IRQ1#
IRQ2#
EYEXY
CRYSTAL
XTLI
EYECLK
XTLO
EYESYNC
+5V
+3.3V
EYE
PATTERN
GENERATOR
(Optional)
GND
POWER
SUPPLY
Figure 1. Modem Functional Interconnect Diagram (Fax)
8
MD205
TXD
OffHook
RXD
Talk
DCLK
RINGD
USART
(Optional)
RTS#
LINEOUT
CTS#
LINEIN
TELEPHONE
LINE
DAA
RLSD#
SPKRP
SPKRM
SPEAKER
DRIVER
READ#
FM209/214-V
MONOFAX
MODEM
WRITE#
DATA BUS
HOST
Processor
(DTE)
MIC BIAS
ADDR. BUS
DECODER
MICP
MICM
MICROPHONE
AMP.
CS#
RESET#
IRQ1#
IRQ2#
EYEXY
CRYSTAL
XTLI
EYECLK
XTLO
EYESYNC
+5V
+3.3V
EYE PATTERN
GENERATOR
(Optional)
GND
POWER
SUPPLY
Figure 2. Modem Functional Interconnect Diagram (Fax and DTAM)
MD205
9
OffHook
TXD
RINGD
DCLK
USART
(Optional)
TELEPHONE
LINE
Talk
RXD
DAA
LINEOUT
RTS#
LINEIN
CTS#
RLSD#
SPKRP_P
SPKRM_P
SPKRP_S
SPKRM_S
READ#
WRITE#
DATA BUS
SPEAKER
DRIVER
FM209/214-VS
MONOFAX
MODEM
MICP_P
MICM_P
ADDR. BUS
HOST
Processor
(DTE)
MICP_S
DECODER
MICM_S
CS#
MICROPHONE
AMP.
MIC BIAS_P
MIC BIAS_S
RESET#
IRQ1#
IRQ2#
EYEXY
EYECLK
XTLI
CRYSTAL
EYESYNC
XTLO
+5V
+3.3V
EYE PATTERN
GENERATOR
(Optional)
GND
POWER
SUPPLY
Figure 3. Modem Functional Interconnect Diagram (Fax, DTAM, and Speakerphone)
10
MD205
RLSD#
DCLK
EN85#
GPI0
RTS#
DGND1
TXD
SA1CLK
RS4
RS3
RS2
RS1
RS0
YCLK
IACLK
IA1CLK
CTRLSIN_S1/NC2
RESERVED1/NC2
SOUT_S1/NC2
SIN-S1/NC2
FSYNC_S1/NC2
IARESET_S#1/NC2
AGND1
LINEIN_S1/NC2
MICP_S1/NC2
NC
VREF_S1/NC2
VC_S1/NC2
VAA_S1/NC2
LINEOUT_S1/NC2
MICM_S1/NC2
MICBIAS_S1/NC2
NC
GPO5
GPO6
VDD4
GPO7
GPI7
GPI6
GPI5
GPI4
GPI3
GPI2
READ#
CS#
WRITE#
CSBR#3/RESERVED2
D0
DGND3
D1
VDD3
DGND2
D2
D3
D4
D5
D6
D7
VDD2
MCLK_S1/NC2
ICLK_P
NC
AVDD_P
SPKRM_P
SPKRP_P
AGND4
LINEOUT_P
VAA_P
VC_P
VREF_P
NC
MCLK_P
CTRLSIN_P
RESERVED
SOUT_P
SIN_P
FSYNC_P
IARESET_P#
AGND3
NC
LINEIN_P
MICP_P
MICM_P
MICBIAS_P
NC
EYEXY
SR4OUT
VDD1
102
101
100
99
98
97
96
95
94
93
92
91
90
89
88
87
86
85
84
83
82
81
80
79
78
77
76
75
74
73
72
71
70
69
68
67
66
65
NC
AGND2
SPKRP_S1/NC2
SPKRM _S1/NC2
AVDD _S1/NC2
RESERVED1/NC2
ICLK_S1/NC2
SR1IO
NC
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
57
58
59
60
61
62
63
64
SR4IN1/RESERVED2
SR3OUT1/RESERVED2
EYESYNC
EYECLK
RXD
128
127
126
125
124
123
122
121
120
119
118
117
116
115
114
113
112
111
110
109
108
107
106
105
104
103
RESERVED
AGND5
DVAA
DGND6
RESERVED
RESERVED
SR3IN
IRQ2#
GPI1
XCLK
RESERVED
XTLO
XTLI
RESET#
DGND5
VGG
VDD5
GPO0
GPO1
GPO2
IRQ1#
CTS#
DGND4
GPO3
GPO4
RESERVED
Notes:
1 For -S Options
2 For all other options
3 For -R Options
MD205/DG1175 128TQFP
Figure 4. Pin Signals - 128-Pin TQFP
MD205
11
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Fax: (86 2) 6361 2516
Conexant Systems Commercial
(Israel) Ltd.
P. O. Box 12660
Herzlia 46733, Israel
Phone: (972 9) 952 4064
Fax: (972 9) 951 3924
Japan Headquarters
Conexant Systems Japan Co.,
Ltd.
Shimomoto Building
1-46-3 Hatsudai,
Shibuya-ku, Tokyo
151-0061 Japan
Phone: (81 3) 5371 1567
Fax: (81 3) 5371-1501
Taiwan Headquarters
Conexant Systems, Taiwan Co.,
Ltd.
Room 2808, 333
International Trade Building
Keelung Road, Section 1
Taipei 110, Taiwan, ROC
Phone: (886 2) 2720 0282
Fax: (886 2) 2757 6760