SI2457-C-FSR Silicon Laboratories Inc, SI2457-C-FSR Datasheet - Page 17
SI2457-C-FSR
Manufacturer Part Number
SI2457-C-FSR
Description
Manufacturer
Silicon Laboratories Inc
Datasheet
1.SI2457-C-FSR.pdf
(74 pages)
Specifications of SI2457-C-FSR
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4.3. Command Mode
Upon reset, the ISOmodem
accepts “AT” commands. An outgoing modem call can
be made using the “ATDT#” (tone dial) or “ATDP#”
(pulse dial) command after the device is configured. If
the handshake is successful, the modem responds with
the response codes detailed in Table 14 on page 36 and
enters data mode.
4.4. Data Mode
The Si2457/34/15/04 ISOmodem is in data mode while
it has a telephone line connection to another modem or
is in the process of establishing a connection.
Data protocols are available to provide error correction
to improve reliability (V.42 and MNP2-4) and data
compression to increase throughput (V.42bis and
MNP5).
Each connection between two modems in data mode
begins with a handshaking sequence. During this
sequence, the modems determine the line speed, data
protocol, and related parameters for the data link.
Configuration through AT commands determines the
range of choices available to the modem during the
negotiation process.
4.5. Fast Connect
The Si2457/34/15/04 supports a fast connect mode of
operation to reduce the time of a connect sequence in
originate mode. The Fast Connect modes can be
enabled for V.21, V.22, Bell103, and V.29 modulations.
See “AN93: Modem Designer’s Guide” for details.
4.6. V.80 Synchronous Access Mode
The Si2457/34/15/04 supports a V.80 synchronous
Table 9. Pulldown Selector (16-Pin Version)
4.9152 MHz CLK
19.2 kbps DTE
Table 8. Pulldown Selector (24-Pin SSD)
No EEPROM
27 MHz CLK
Autobaud
EEPROM
4.9152 MHz CLK
Mode
27 MHz CLK
Mode
Serial I/O
®
Default
Default
Default
Pin 23
Pin 18
Pin 4
is in command mode and
Serial I/O
Default
Pin 15
Parallel I/O
Pin 11, 15
Pin 15
N/A
N/A
Rev. 1.1
access mode of operation, which operates with an
asynchronous DTE and a synchronous DCE. See
“AN93: Modem Designer’s Guide” for complete details.
4.7. Clocking/Low Power Modes
The Si2457/34/15/04 contains an on-chip phase-locked
loop (PLL) and clock generator. Using either a single
crystal or master clock input, the Si2457/34/15/04 can
generate all the internal clocks required to support the
featured modem protocols. Either a 27 MHz or
4.9152 MHz clock (3.3 V max input—see Table 5 on
page 7) on XTALI or a 4.9152 MHz crystal across XTALI
and XTALO form the master clock (±100 ppm max) for
the ISOmodem. This clock source is sent to an internal
PLL that generates all necessary internal system clocks
including the DSP clock. By default, the Si2457/34/15/
04 assumes a 4.9152 MHz clock input. If a 27 MHz
clock on XTALI is used with the serial (UART) interface,
a pulldown resistor < 10 kΩ must be placed between
DCD and GND. If a 27 MHz clock on XTALI is used with
the parallel interface, a pulldown resistor < 10 kΩ must
be placed between CTS/CS (pin 11) and GND and
AOUT/INT and GND (see Tables 8 and 9).
Using the S24 S-register, the Si2457/34/15/04 can be
set to automatically enter sleep mode after a pre-
programmed time of inactivity with either the DTE or the
remote modem. The sleep mode is entered after (S24)
seconds have passed since the TX FIFO has been
empty. The ISOmodem remains in the sleep state until
either a 1 to 0 transition on TXD (serial mode) or a 1 to 0
transition on CS (parallel mode) occurs.
Additionally, the Si2457/34/15/04 may be placed in a
complete powerdown mode or wake-on-ring mode.
Complete
U65[13] (PDN). Once the PDN bit is written, the Si2457/
34/15/04 completely powers down and can only be
powered back on via the RESET pin.
4.8. Data Compression
The modem can achieve DTE (host-to-ISOmodem)
speeds greater than the maximum DCE (modem-to-
modem) speed through the use of a data compression
protocol. The compression protocols available are the
ITU-T V.42bis and MNP5 protocols. Data compression
attempts to increase throughput by compressing the
data before actually sending it. Thus, the modem is able
to transmit more data in a given period of time.
4.9. Error Correction
The Si2457/34/15/04 ISOmodem can employ error
correction (reliable) protocols to ensure error-free
delivery of asynchronous data sent between the host
and the remote end. The Si2457/34/15/04 supports V.42
powerdown
Si2457/34/15/04
is
accomplished
via
17
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