Si2439-A-FM18-EVB Silicon Labs, Si2439-A-FM18-EVB Datasheet - Page 4

Si2439-A-FM18-EVB

Manufacturer Part Number

Si2439-A-FM18-EVB

Description

Networking Development Tools 38pin Si2439+ Si3018 ISOmodem Eval Board

Manufacturer

Silicon Labs

Type

Network Controller & Processorr

Datasheet

1.SI2439-A-FM18-EVB.pdf (36 pages)

Specifications of Si2439-A-FM18-EVB

Rohs

yes

Tool Is For Evaluation Of

Si2439

Data Rate

56 Kbps

Interface Type

RJ-11, RS-232, SPI, UART, USB

Operating Supply Voltage

3.3 V

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Si2493/57/34/15/04

Global ISOmodem-EVB

1.3.1.1. RS232 vs USB vs User Provided IO

To change to USB operation simply move the RS232

selection jumper on JP23 to the USB position as

marked on the PCB and shown in Figure 1. When the

USB vs UART settings are changed the appropriate

indicator LED will light up on the EVB.

be activated and the user must provide I/O signals via

the pins on J103. This IO can be in ASYNCH SERIAL,

SPI SERIAL and Parallel Bus mode.

1.3.1.2. Autobaud Control

Autobaud is enabled with no jumper at the JP34

position. When a jumper is in place, autobaud is

disabled and the user must setup the host to run 19k2

baud in order to use the modem.

1.3.1.3. EEPROM Control

To enable the EEPROM (U5) both jumpers JP34 and

JP35 must be in place and the modem reset.

line to the modem and allows the EEPROM to function

when addressed by the modem, while JP34 connects a

strapping option to the correct modem pin which is

sensed during reset and instructs the modem firmware

to use the EEPROM.

1.3.1.4. Call Progress Configuration

The modem call establishment can be heard by

enabling the call progress feature via software (see

AN93) and Hardware. The hardware components

include installing JP12 which enabled the audio power

amplifier and installing JP14 to connect the on board

speaker to the power amplifier output. If an offboard

speaker is to be used then JP14 can be removed and

the alternate speaker can be connected to pins 1 and 4

of JP11. Note the this audio output is 8  and

differential

grounded.

1.3.1.5. Control Line Configuration

If neither jumper is in place then neither serial port will

JP35 physically connects the EEPROM chips select

Selection

so that neither output pin

RS232

Signal

DCD

DTR

DSR

RTS

Table 1. Routing of Control Signals with Jumper Position on J6

DCD

ESC

RTS

Left

INT

Si24xx 24-Pin

SDI/EESD

AOUT/INT

FSYNCH

EECLK

Right

SDO/

should be

Rev. 0.7

DCD

ESC

Left

Si24xx 16-Pin

Various modem control lines can be rearranged

depending on the user preferences and the specific

modem chips used. This is done using JP6. The basic

two JP6 configurations are shown in the following

figures.

The specific details of what the jumpers connect are

shown in Table 1, which is also found printed on the

underside of the EVB.

Figure 2. Default J6 Setup for 24-Pin Modem

Figure 3. Default J6 Setup for 16-Pin Modem

Right

RTS

INT

DCD

ESC

Left

Chips

Si2401

AOUT/INT

GPIO1

Right

Si2439-A-FM18-EVB Silicon Labs, Si2439-A-FM18-EVB Datasheet - Page 4

Si2439-A-FM18-EVB

Specifications of Si2439-A-FM18-EVB

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