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产品型号CR0805-8W-206J的Datasheet PDF文件预览

Si2493/57/34/15/04  
Global ISOmodem-EVB  
Evaluation Board Rev 5.0 for the Si2493/57/34/15/04  
ISOmodem with UART and SPI Interfaces  
A direct access header (J103) is available on the  
motherboard to bypass the RS-232 transceivers and  
connect the Si2493/57/34/15/04 ISOmodem directly to  
a target system.  
Description  
The global Si2493/57/34/15/04-EVB evaluation board  
Rev 5.0 provides the system designer an easy way of  
evaluating the Si2493/57/34/15/04 ISOmodem . The  
®
An on-board rectifier, filter, and voltage regulator allow  
the power input to be 7.5–13 V ac or dc (either polarity)  
supplied through a screw terminal (J8) or a standard  
2 mm power jack (J9). Alternatively, power can be  
supplied through the USB interface (whether the USB or  
RS232 interface is used). The evaluation board can  
drive an external speaker for call monitoring or the  
speaker mounted directly on the board. Please note that  
the PCM interface, parallel interface, and EEPROM are  
available on the 24-pin FT only. See "1.7.EVB Part  
Numbers" on page 8 for ISOmodem EVB options.  
Si2493/57/34/15/04-EVB consists of a motherboard  
with a power supply, an RS-232 and USB interface,  
other ease-of-use features, and a complete removable  
modem module on a daughter card. (A functional block  
diagram of the Si2493/57/34/15/04-EVB is shown  
below.) The Si2493/57/34/15/04 ISOmodem is a  
complete controller-based modem chipset with an  
integrated  
and  
programmable  
direct  
access  
arrangement (DAA) that meets global telephone line  
requirements. Available as a combination of one 16-pin  
small line-side device and one 24-pin or 16-pin system-  
side device, the Si2493/57/34/15/04 ISOmodem  
eliminates the need for a separate DSP data pump,  
modem controller, memories, codec, isolation  
transformer, relays, opto-isolators, and a 2- to 4-wire  
hybrid. The Si2493/57/34/15/04 is ideal for embedded  
modem applications due to its small board area,  
controller-based architecture, low power consumption,  
and global compliance. The Si2493/57/34/15/04-EVB  
provides an RJ-11 jack (for interfacing the Si2493/57/  
34/15/04-EVB to the phone line), and USB and RS232  
serial ports for interfacing to a PC or data terminal. This  
allows the ISOmodem to operate as a serial modem for  
straightforward evaluation of the Si2493/57/34/15/04. To  
evaluate the Si2493/57/34/15/04 ISOmodem in an  
embedded system, the daughter card can be used  
independently of or with the motherboard.  
Features  
The Si2493/57/34/15/04-EVB includes the following:  
Dual RJ-11 connection to phone line  
RS-232 and USB interface to PC  
Speaker for call monitoring  
Direct access to Si2493/57/34/15/04 for embedded  
application evaluation  
Easy power connection to common 7.5 V–13.5 V  
power supplies or USB port.  
9 V ac adaptor  
Simple installation and operation  
EEPROM (24-pin FT only)  
RS232 lines status display on LEDs.  
Functional Block Diagram  
Audio  
Out  
7.5-13.5 V dc or  
peak ac Adaptor  
Audio  
Amplifier  
Rectifier  
Filter  
Voltage  
Regulator  
Direct  
Access HDR  
3.3 V  
Daughter Board Boundary  
5 V  
USB  
Connector  
USB I/F  
Phone  
line  
AOUT  
Interface  
Selection  
Jumpers  
Interface  
Circuit  
Si2493/57/34/15/04  
Si3018*  
RJ-11  
UART  
RS-232  
Transceivers  
DB9  
RESET XTALO XTALI  
Push Button  
Reset  
Power-On  
Reset  
*Si3010 for Si2404  
Rev. 0.7 4/11  
Copyright © 2011 by Silicon Laboratories  
Si2493/57/34/15/04-EVB  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
1.3. Motherboard and Daughter Card  
Configuration  
1. Si2493/57/34/15/04-EVB Setup and  
Evaluation  
The EVB consist of a motherboard that takes a plug in  
daughter card. The motherboard can be configured in a  
variety of ways that are explained below and are  
managed via jumpers. The daughter card contains both  
the modem system side and the isolated line interface  
(DAA).  
This section explains how to set up the Si2493/57/34/  
15/04-EVB for evaluation as an RS-232 or USB  
interface modem. Jumper settings, power connection,  
PC/terminal connections, and terminal program  
configuration settings are given. The initial modem  
setup after power is applied as well as a basic tutorial  
on modem operation are provided. Si2493/57/34/15/04-  
EVB configurations for evaluating additional features  
are discussed separately. See the Si2493/57/34/15 or  
Si2404 data sheets and “AN93: Si2493/57/34/15/04/04  
Modem Designer’s Guide” for complete details.  
The daughter card comes preconfigured and functional  
although the user may decide to change some  
operating options such as the type of crystal used with  
the modem chip or the type of control signals used, i.e.  
UART vs parallel. These features must be managed by  
changing strapping resistors soldered down to the  
daughter card and by changing parts associated with  
the crystal. These possible changes are explained  
below.  
1.1. Si2493/57/34/15/04-EVB Quick Start—  
RS-232 Interface  
1. Set jumpers according to Figure 1, but change J6 to the  
arrangement shown in Figure 3 if an FS ISOmodem  
package is used.  
1.3.1. Motherboard Configuration  
Check all the jumper setting on the S2493/57/34/15/04-  
EVB before applying power. The standard factory  
setting for the modem in a 24-pin FT package are  
shown in the figure below. This setup configures the  
modem for RS232 serial operation with autobaud  
enabled. Any standard terminal program configured to  
communicate through a PC com port can be used to  
communicate with the EVB.  
2. Connect:  
DB-9 to PC COM 1 (with a pass-through cable).  
RJ-11 to phone line or CO simulator.  
9 V ac adaptor (or USB cable).  
3. Bring up:  
Turn on power to modem.  
Autobaud automatically adjusts modem DTE speed and  
protocol.  
Figure 1 shows the default motherboard setup for the  
FT package daughter card as well as the functions of  
connectors and jumpers.  
4. Type “AT” followed by a carriage return.  
Should echo “AT” and then an “OK”.  
1.2. Si2493/57/34/15/04-EVB Quick Start—  
USB Interface  
1. Set jumpers according to Figure 3, but change J6 to the  
arrangement shown in Figure 3 if an FS ISOmodem  
package is used.  
2. Connect:  
USB cable to PC  
RJ-11 to phone line or CO simulator  
3. Download USB driver for your operating system from the  
CD supplied with the evaluation board.  
4. Install driver.  
5. Bring up.  
Reset the modem.  
Autobaud automatically adjusts modem DTE speed and  
protocol.  
6. Type “AT” followed by a carriage return.  
Should echo “AT” and then an “OK”.  
2
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Rev. 0.7  
3
Si2493/57/34/15/04  
Global ISOmodem-EVB  
1.3.1.1. RS232 vs USB vs User Provided IO  
Selection  
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.  
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.  
J6  
If neither jumper is in place then neither serial port will  
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.  
3
6
1
4
1.3.1.2. Autobaud Control  
7
10  
13  
9
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.  
12  
15  
1.3.1.3. EEPROM Control  
Figure 2. Default J6 Setup for 24-Pin Modem  
Chips  
To enable the EEPROM (U5) both jumpers JP34 and  
JP35 must be in place and the modem reset.  
JP35 physically connects the EEPROM chips select  
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.  
J6  
3
6
1
4
1.3.1.4. Call Progress Configuration  
7
10  
13  
9
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 so that neither output pin should be  
grounded.  
12  
15  
Figure 3. Default J6 Setup for 16-Pin Modem  
Chips  
The specific details of what the jumpers connect are  
shown in Table 1, which is also found printed on the  
underside of the EVB.  
1.3.1.5. Control Line Configuration  
Table 1. Routing of Control Signals with Jumper Position on J6  
RS232  
Si24xx 24-Pin  
Si24xx 16-Pin  
Si2401  
Signal  
Left  
Right  
Left  
Right  
Left  
Right  
DCD  
RI  
DCD  
RI  
SDI/EESD  
FSYNCH  
RI  
DCD  
NC  
NC  
RI  
DCD  
NC  
NC  
RI  
DTR  
RTS  
ESC  
RTS  
ESC  
NC  
NC  
RTS  
ESC  
NC  
NC  
SDO/  
GPIO1  
EECLK  
DSR  
INT  
AOUT/INT  
NC  
INT  
NC  
AOUT/INT  
4
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
1.3.2. Daughter Card Configuration  
The daughter card comes configured with either a 24-  
pin FT or 16-pin FS system side part and either 32 kHz  
or 4.9152 MHz operation, and UART operation. The  
daughter card can also be setup to operate with a third  
clock frequency, an on board 27 MHz oscillator. To  
change between these options requires component  
changes on the daughter card.  
The daughter card can also operate in three possible  
interface modes: parallel bus mode, in SPI mode as well  
as the default UART mode.  
There are six small (0402) strapping resistors (R101 to  
R106) that are on the daughter card and are configured  
differently depending on the combination of chip  
package, clock frequency chosen, and interface mode.  
See Figures 5 and 6 for details.  
The card and its options are shown in Figure 4, which  
shows the Modem Daughter card Rev 2.0 top and  
bottom views with the critical parts that may be changed  
to select another command mode (i.e. SPI) or an  
alternate crystal frequency, such as 4.9152 MHz.  
Rev. 0.7  
5
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Three possible crystals or ext oscillator.  
TOP VIEW  
These option strapping resistors select  
modem command mode UART, SPI or  
Parallel and crystal clock frequency.  
BOTTOM VIEW  
Crystal loading caps (C40 & C41)  
specific to the crystal type used.  
Figure 4. Modem Daughter Card Rev 2.0 Top and Bottom Views  
Figure 5. R101–R106 Setup for Clock and Mode Configuration on the DC with the 16-Pin FS  
Package  
6
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Figure 6. R106 Setup for Clock and Mode Configuration on DC with 24-Pin FT Package  
1.3.2.1. 32 kHz Setup  
Table 2. Signal Usage  
For 32 kHz, populate Y1 with the 32 kHZ crystal shown  
in the BOM and use 18 pF capacitors for the C40/C41  
values. Also remove Y3 and Y1b if present and strap  
R101 to R106 as shown in Figure 5.  
SPI Function  
JP23 Pin Number  
Legacy Pin  
Function  
SPI_CSb  
SPI_MISO  
SPI_MOSI  
SPI_SCLK  
5
7
RTSb  
RXD  
TXD  
The modem should then work as expected; no changes  
are needed on the motherboard  
9
1.3.2.2. 4.9152 MHz  
11  
CTSb  
For 4.9152 MHz, populate Y1b with the 4.9152 MHz  
crystal shown in the BOM and use 33 pF capacitors for  
the C40 and C41 values. Also remove Y3 and Y1 if  
present and strap R101 to R106 as shown in Figures 5  
or 6 above.The modem should then work as expected;  
no changes are needed on the motherboard  
1.3.3. Parallel Bus Mode Setup  
To change to parallel bus mode setup it is necessary to  
configure the R101 straps as shown in Figure 5 or  
Figure 6, according to the package and clock used.  
Then setup the daughter card with neither UART nor  
USB operation selected, i.e. with no jumper on JP23.  
The SPI signals can then be obtained on J103, the  
system connector and connected to the host. See the  
data sheet and schematic for signal and pin usage.  
1.3.2.3. 27 MHz  
For 27 MHz, populate Y3 with the small surface mount  
oscillator shown in the BOM and remove Y3 and Y1b if  
present. Also remove any capacitors at the C40 and  
C41 positions.  
1.4. Power Requirements  
Strap R101 to R106 as shown in Figures 5 or 6 above.  
The Si2493/57/34/15/04-EVB has an on-board diode  
bridge, filter capacitor, and voltage regulator (U10 and  
U18). Power can be supplied from any source capable  
of providing 7.5 V–13 V dc or 7.5 V–13 V peak ac and  
The modem should then work as expected; no changes  
are needed on the motherboard  
1.3.2.4. SPI Mode Setup  
To change to SPI mode setup it is necessary to at least 100 mA. (Additional current may be required if a  
configure the R101 straps as shown in Figure 5 or speaker is connected for monitoring call progress  
Figure 6, according to the package and clock used. tones.) Power may be applied to the Si2493/57/34/15/  
Then setup the daughter card with neither UART nor 04-EVB through the screw terminals (J8), the 2 mm  
USB operation selected, i.e. with no jumper on JP23. power jack (J9), or the USB cable (even if the modem is  
The SPI signals can then be obtained on J103, the configured for RS-232 operation). The onboard full-  
system connector and connected to the host. Signal wave rectifier and filter ensure the correct polarity is  
usage is described in Table 2.  
applied to the Si2493/57/34/15/04-EVB. Daughter card  
current can be measured by connecting a DVM across  
R59, a 1 resistor using the supplied test points on  
Rev. 0.7  
7
Si2493/57/34/15/04  
Global ISOmodem-EVB  
either side.  
the data mode. After the ATO command, the modem  
resumes the data connection and no longer accepts AT  
commands.  
1.5. Terminal and Line Connections  
The Si2493/57/34/15/04 can be tested as a standard  
serial data modem by connecting the Si2493/57/34/15/  
04-EVB to a personal computer or other data terminal  
equipment (DTE), phone line, and power. Connect a PC  
serial port to the DB9 connector on the Si2493/57/34/  
15/04-EVB with a pass-through cable. The RS-232  
transceivers on the EVB can communicate with the DTE  
at rates up to 1 Mbps. Any standard terminal program,  
such as HyperTerminal or ProComm, running on a PC  
communicates with the Si2493/57/34/15/04-EVB. The  
standard factory jumper configuration has autobaud  
enabled. Autobaud detects the DTE speed, data length,  
parity, and number of stop bits.  
1.7. EVB Part Numbers  
The ISOmodem evaluation boards are offered in  
multiple speeds and packaging options. The first four  
numbers indicate the system-side device. The next two  
letters indicate the system-side package (FS–Lead-free,  
16-pin SOIC; FT–Lead-free, 24-pin TSSOP). The final  
two numbers indicate the line-side device. See Figure 7.  
Si2457-D-FS18-EVB  
LS Part Number (Si30xx)  
SS Package  
If JP33 is installed, autobaud is disabled. Configure the  
terminal emulation program to 19200 bps, eight data  
bits, no parity, one stop bit, and hardware (CTS)  
handshaking. Connect the RJ-11 jack on the Si2493/57/  
34/15/04-EVB to an analog phone line or telephone line  
simulator, such as a Teltone TLS 5.  
SS Revision  
SS Part Number  
Figure 7. EVB Part Number Example  
2. Si2493/57/34/15/04-EVB  
Functional Description  
1.6. Making Connections  
The Si2493/57/34/15/04-EVB is  
a
multipurpose  
With the terminal program properly configured and  
running, apply power to the Si2493/57/34/15/04-EVB.  
Type “AT<cr>”, and the modem should return “OK”  
indicating the modem is working in the command mode  
and communicating with the terminal. If the “OK”  
response is not received, try resetting the modem by  
pressing the manual reset switch (S1); then, again type  
“AT<cr>.” Next, type “ATI6<cr>.” The modem should  
respond with “2493”, “2457”, “2434”, “2415”, or “2404”  
indicating the terminal is communicating with an Si2493,  
Si2457, Si2434, Si2415, or Si2404.  
evaluation system. The modem daughter card  
illustrates the small size and few components required  
to implement an entire controller-based modem with  
global compatibility. The daughter card can be used  
independently of, or in conjunction with, the  
motherboard. The motherboard adds features that  
enhance the ease of evaluating the many capabilities of  
®
the Si2493/57/34/15/04 ISOmodem .  
2.1. Motherboard  
The motherboard provides a convenient interface to the  
Si2493/57/34/15/04 DC (daughter card). The versatile  
power supply allows for a wide range of ac and dc  
voltages to power the board. RS-232 transceivers and a  
DB9 connector allow the Si2493/57/34/15/04-EVB to be  
easily connected to a PC or other terminal device.  
Jumper options allow direct access to the LVCMOS/TTL  
level serial inputs to the Si2493/57/34/15/04, bypassing  
the RS-232 transceivers or USB interface. This is  
particularly useful for directly connecting the Si2493/57/  
34/15/04 to embedded systems.  
Type “ATS0=2<cr>” to configure the modem to answer  
on the second ring.  
To take the modem off-hook, type “ATH1<cr>.” The  
modem should go to the off-hook state, draw loop  
current, and respond with an “OK.” Next, type  
“ATH<cr>” or “ATH0<cr>”, and the modem should hang  
up (go on-hook) and stop drawing loop current.  
To make a modem connection, type “ATDT(called  
modem phone number)<cr>.” Once the connection is  
established, a “CONNECT” message appears indicating  
the two modems are in the data mode and  
communicating. Typing on one terminal should appear  
on the other terminal. To return to the command mode  
without interrupting the connection between the two  
modems, type “+++.” Approximately two seconds later,  
“OK” appears. The modem is now in command mode  
and accepts “AT” commands.Type “ATH” (or “ATH0”) to  
terminate the data connection, or type “ATO” to return to  
The Si24xxURT-EVB motherboard connects to the  
daughter card through two connectors, JP101 and JP2.  
JP101 is an 8x2 header providing connection to all  
Si2493/57/34/15/04 digital signals and regulated 3.3 V  
power for the Si2493/57/34/15/04. The Si2493/57/34/  
15/04 digital signals appearing at JP101 (daughter card  
interface) are LVCMOS and TTL compatible. JP2 is a  
4x1 socket providing connection between the daughter  
8
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
card and the RJ-11 phone jack.  
2.1.5. EEPROM Enable (FT Only)  
2.1.1. Voltage Regulator/Power Supply  
Connecting JP34 and JP35 enables the optional  
EEPROM, U5. See “AN93: Si2457/Si2434/Si2415/  
Si2404 Modem Designer’s Guide” for programming  
details.  
The input voltage to either J8 or J9 must be between 7.5  
and 13.5 V dc or 7.5 and 13.5 V  
ac. The  
PEAK  
motherboard includes a diode bridge (D12) to guard  
against a polarity reversal of the dc voltage or to rectify 2.1.6. Interface Selection  
an ac voltage. The power source must be capable of  
The serial interface of the Si2493/57/34/15/04-EVB can  
continuously supplying at least 100 mA. C44 serves as  
a filter cap for an ac input. The voltage regulator, U10,  
provides 5 V for the motherboard and the input for  
voltage regulator U3, which outputs 3.3 V for use on the  
motherboard and to power the daughter card. Si24xxDC  
power consumption can be measured by placing a  
meter across R59. Power is supplied to U2 through D5  
from the USB.  
be connected to a computer, terminal, embedded  
system, or any other data terminal equipment (DTE) via  
a standard RS-232 interface, USB interface, or through  
a direct TTL serial interface.  
The Si2493/57/34/15/04 can be tested as a standard  
data modem by connecting the Si2493/57/34/15/04-  
EVB to a personal computer or other DTE power supply  
and a phone line. A PC can communicate with the  
Si2493/57/34/15/04-EVB using a standard terminal  
2.1.2. Reset Circuitry  
The Si2493/57/34/15/04 requires a reset pulse to program, such as HyperTerm or ProComm.  
remain low for at least 5.0 ms after the power supply  
has stabilized during the powerup sequence or for at  
04-EVB is connected to the DTE.  
least 5.0 ms during a power-on reset. Most production  
Si2493/57/34/15/04 modem chipset applications require  
that RESET be controlled by the host processor. Certain  
Jumper settings determine how the Si2493/57/34/15/  
2.1.7. RS-232 Interface  
This operation mode uses the standard factory jumper  
settings illustrated in Figure 1 on page 3. The Maxim  
Si2493/57/34/15/04  
operation  
modes,  
including  
MAX3237 transceiver interfaces directly with the TTL  
levels available at the serial interface of the Si2493/57/  
34/15/04 and, using internal charge pumps, makes  
these signals compatible with the RS-232 standard. The  
RS-232 transceiver on the Si2493/57/34/15/04-EVB can  
communicate at rates between 300 bps and 1 Mbps.  
This simplifies the connection to PCs and other data  
terminal equipment (DTE). The signals available on the  
powerdown, require a hardware reset to recover.  
The Si2493/57/34/15/04-EVB contains two reset  
options, an automatic power-on reset device, U18  
(DS1818) (default), and a manual reset switch (S1) to  
permit resetting the chip without removing power. A  
reset, regardless of the mechanism, causes all modem  
settings to revert to factory default values.  
2.1.3. Automatic Reset (DS1818)  
Si2493/57/34/15/04-EVB  
serial  
interface  
(DB9  
The DS1818 is a small, low-cost device that monitors connector) are listed in Table 3.  
the voltage on V and an external reset pushbutton. If  
D
2.1.8. USB Interface  
V
drops below 3.0 V, the DS1818 provides a 220 ms  
D
The USB cable connects to J10 on the motherboard  
and provides both data and power. Installing a jumper  
on JP23 enables the USB interface and disables the  
RS-232 interface. The USB interface is provided by  
U12. A USB driver for this chip is available for most PC  
and MAC operating systems on the CD.  
active-low reset pulse. On powerup, the DS1818 also  
outputs an active low reset pulse for 220 ms after V  
reaches 90% of the nominal 3.3 V value. The DS1818  
outputs a 220 ms reset pulse any time the power supply  
voltage exceeds the 3.3 V ±10% window.  
D
2.1.4. Manual Reset  
The manual reset switch (S1) performs a power-on  
reset. This resets the Si2493/57/34/15/04 to factory  
defaults without turning off power. Pressing S1 activates  
the reset monitor in the DS1818 and produces a 220 ms  
active low reset pulse.  
Rev. 0.7  
9
Si2493/57/34/15/04  
Global ISOmodem-EVB  
2.1.9. Direct Access Interface  
operation of the modem. See “AN93: Si3457/34/15/04  
Modem Designer’s Guide” for more details on the  
features controlled by pin strapping.  
While the motherboard supplies power through J8, J9,  
or USB, power-on reset, and an RJ–11 jack for the  
modem, the direct access interface (J103) is used to Since this PWM signal swings rail to rail and is simply  
connect the motherboard to an embedded system. J103 filtered by a low pass filter to acquire the audio. It is  
provides access to all Si2493/57/34/15/04 signals important to keep the power supply to the modem free  
available on the daughter card.  
of noise in the audio spectrum.  
It is necessary to remove the jumper on JP23 to disable 2.1.11.2. The Audio Output Amplifier (LM4819)  
both the RS-232 and USB interface and prevent signal  
contention.  
The Power amplifier on the EVB is powered by a current  
limited 4.2 V supply. The current limit is implemented in  
2.1.10. PCM Interface (24-Pin FT Only)  
the EVB because it is intended for HW/SW  
development and is not needed for a production design.  
This amplifier can drive an 8 speaker with 200 mW of  
Call progress audio (i.e., ISOmodem's call progress  
dialing and negotiation tones).  
The Si2493/57/34/15/04 PCM interface can be  
demonstrated using the voice motherboard, not with this  
EVB.  
2.1.11. AOUT Call Progress Audio Output  
The power amplifier itself is a low cost, rugged H bridge  
type device. There are several pin compatible designs  
from multiple vendors that can provide alternate price/  
power tradeoffs for this amplifier. This power amp can  
be shut down by removing jumper JP12. The signal at  
JP12 can also be tied to a control signal to allow the  
host to shut down the amplifier. The customer can  
change the values of R172 and R173 when integrating  
the EVB to his system, but should keep the RC formed  
by C37 and R173 at a 50 Hz or higher corner to avoid a  
power-on thump.  
Call progress audio output is provided by the Si2493/57/  
34/15/04 on the AOUT pin as a PWM signal. This signal  
allows the user to monitor call progress signals, such as  
dial tone, DTMF dialing, ring, busy signals, and modem  
negotiation. Control of this signal is provided by AT  
commands and register settings described in the  
introduction. The AOUT signal is connected to an on  
board amplifier, for a high-quality output. AOUT can  
also be connected to a summing amplifier or multiplexer  
in an embedded application as part of an integrated  
audio system.  
2.1.11.3. The Call Progress Speaker  
2.1.11.1. AOUT Audio Processing  
The Call progress speaker, Regal RE-2308-NL is  
connected to the amplifier via a jumper, JP14. If another  
speaker is to be connected then it is necessary to  
remove JP14 and connect the external speaker to JP11,  
Pins 1 and 4. It is important to remember that the  
speaker signal is differential. Both the output pins are  
driven outputs and must not be grounded.  
The AOUT signal discussed in this section leaves the  
Si2493/57/34/15/04 is processed (demodulated) by a  
high pass filter: (R133,134,135, and C24, C25, 26,  
C27). It is critically important to not put a dc load on the  
AOUT pin since the pin also acts as a modem feature  
control on reset and is internally weakly pulled up. Any  
unintentional dc load on AOUT prevents proper  
Table 3. DB9 Pin Connections  
J1 Name  
Carrier Detect  
J1 Symbol  
J1 Pin  
Si2493/57/34/15/ Si2493/57/34/15/  
04 Pin  
See note  
9
04 Name  
DCD/EESD  
RXD  
*
CD  
RXD  
TXD  
DTR  
SG  
1
Received Data  
Transmit Data  
2
3
10  
TXD  
Data Terminal Ready  
Signal Ground  
4*  
5
See note  
6
ESC/RI  
GND  
Data Set Ready  
Ready to Send  
Clear to Send  
DSR  
RTS  
CTS  
RD  
6*  
7*  
8
See note  
See note  
11  
INT/AOUT  
RTS/RXCLK  
CTS  
*
Ring Indicator  
9
17  
RI  
*Note: JP6 jumper option.  
10  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
2.2. Modem Daughter Card Operation  
The Si2493/57/34/15/04URT-EVB daughter card is a  
complete modem solution perfectly suited for use in an  
embedded system. The daughtercard contains both the  
modem system-side chip and the isolated line interface  
(DAA).  
The daughter card requires a 3.3 V supply capable of  
providing at least 35 mA and communicates with the  
system via LVCMOS/TTL-compatible digital signals on  
JP1. The RJ-11 jack (TIP and RING) is connected via  
JP2. Be sure to provide the proper power-on reset pulse  
to the daughter card if it is used in the stand-alone  
mode.  
2.2.1. Reset Requirements  
®
The Si2493/57/34/15/04 ISOmodem daughter card  
must be properly reset at powerup. The reset pin (pin 8)  
of the Si2493/57/34/15/04 (JP103, J101 pin 13) must be  
held low for at least 5.0 ms after power is applied and  
stabilized to ensure the device is properly reset.  
2.2.2. Crystal Requirements  
Clock accuracy and stability are important in modem  
applications. To ensure reliable communication between  
modems, the clock must remain within ±100 ppm of the  
design value over the life of the modem. The crystal  
selected for use in a modem application must have a  
frequency tolerance of less than ±100 ppm for the  
combination of initial frequency tolerance, drift over the  
normal operating temperature range, and five year  
aging. Other considerations, such as production  
variations in PC board capacitance and the tolerance of  
loading capacitors, must also be taken into account.  
2.2.3. Protection  
The Si2493/57/34/15/04-EVB meets or exceeds all FCC  
and  
international  
PTT  
requirements  
and  
recommendations for high-voltage surge and isolation  
testing without any modification. The protection/isolation  
circuitry includes C1, C2, C8, C9, FB1, FB2, and RV1.  
The PCB layout is also a key “component” in the  
protection circuitry. The Si2493/57/34/15/04-EVB  
provides isolation to 3 kV. Contact Silicon Laboratories  
for information about designing to higher levels of  
isolation.  
Rev. 0.7  
11  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
3. Design  
The following sections contain the schematics, bill of materials, and layout for the Si2493/57/34/15/04 including the  
daughter card and motherboard.  
D
G N  
1 2  
D V D 3 . 3  
4
3 .  
3
V D  
3 . 3 V D  
D
D
G N  
G N  
2 1  
5
2 0  
6
12  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
+
S C  
1 1  
N D I G  
1 5  
Rev. 0.7  
13  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
4. Bill of Materials: Si24xx Daughter Card  
Table 4. Si24xx Daughter Card Bill of Materials  
Item Qty  
Ref  
C1, C2  
C3  
Value  
33 pF  
Rating  
Voltage  
250 V  
250 V  
50 V  
Tol  
Type  
Y2  
PCB Footprint  
C1808  
Mfr Part Number  
SCC1808X330K502T  
GRM21BR72E103KW03L  
EEE1HS010SR  
Mfr  
1
2
3
4
5
6
7
8
2
1
1
2
1
2
1
2
Y2  
±10%  
±10%  
±20%  
±20%  
±20%  
±10%  
±20%  
±5%  
Holy Stone  
Murata  
0.01 µF  
1 µF  
X7R  
C0805  
C4  
Alum_Elec  
X7R  
C3.3X3.3MM  
C0603  
Panasonic  
Venkel  
C5, C6  
C7  
0.1 µF  
2.7 nF  
680 pF  
0.01 µF  
18 pF  
16 V  
C0603X7R160-104M  
C0603X7R500-272M  
SCC1808X681K502T  
C0603X7R160-103M  
C0603COG500-180J  
50 V  
X7R  
C0603  
Venkel  
C8, C9  
C10  
Y2  
250 V  
16 V  
Y2  
C1808  
Holy Stone  
Venkel  
X7R  
C0603  
C40,  
C41  
50 V  
COG  
C0603  
Venkel  
9
3
2
C50,  
C52,  
C56  
0.1 µF  
10 V  
±20%  
X7R  
X5R  
C0603  
C0603  
C0603X7R100-104M  
C0603X7R6R3-224K  
Venkel  
Venkel  
10  
C51,  
C53  
0.22 µF  
6.3 V  
±10%  
±10%  
11  
12  
13  
1
1
3
C54  
D1  
1 µF  
HD04  
600  
25 V  
X5R  
BRIDGE  
SMT  
C0603  
MiniDIP4  
L0603  
C0603X5R250-105K  
HD04-T  
Venkel  
Diodes Inc.  
Murata  
0.8 A  
400 V  
FB1,  
FB2,  
FB5  
200 mA  
BLM18AG601SN1  
14  
15  
16  
17  
18  
19  
20  
21  
22  
23  
24  
25  
26  
27  
28  
29  
1
1
2
1
2
1
1
1
1
1
2
2
1
1
1
2
J1  
J2  
SOCKET 8x2  
4X1 Header_0  
SOCKET  
SOCKETX8-100-SMT  
CONN1X4-100-SMT  
SOT23-BEC  
SOT23-BEC  
SOT23-BEC  
DO-214AA-NP  
R2010  
SSW-108-22-G-D-VS  
TSM-104-01-T-SV  
MMBTA42LT1  
Samtec  
Berg  
Q1 Q3  
Q2  
MMBTA42LT1 200 mA  
MMBTA92LT1 100 mA  
MMBTA06LT1 500 mA  
P3100SB  
300 V  
300 V  
80 V  
NPN  
On Semi  
On Semi  
On Semi  
Littelfuse  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
PNP  
MMBTA92LT1  
Q4 Q5  
RV1  
R1  
NPN  
MMBTA06LT1  
275 V  
Sidactor  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
ThickFilm  
P3100SBL  
1.07 k  
150   
1/2 W  
1/16 W  
1/2 W  
1/2 W  
1/16 W  
1/8 W  
1/16 W  
1/4 W  
1/2 W  
1/16 W  
±1%  
±5%  
±1%  
±1%  
±5%  
±5%  
±1%  
±1%  
±1%  
±1%  
CR2010-2W-1071F  
CR0603-16W-151J  
CR2010-2W-3651F  
CR2010-2W-2491F  
CR0603-16W-104J  
CR0805-8W-206J  
CR0603-16W-1004F  
CR1206-4W-5360F  
CR2010-2W-73R2F  
CR0603-16W-56R2F  
R2  
R0603  
R3  
3.65 k  
2.49 k  
100 k  
20 M  
1 M  
R2010  
R4  
R2010  
R5, R6  
R7, R8  
R9  
R0603  
R0805  
R0603  
R10  
R11  
536   
R1206  
73.2   
56.2   
R2010  
R12,  
R13  
R0603  
30  
31  
2
2
R15,  
R16  
0   
0   
1 A  
1 A  
ThickFilm  
ThickFilm  
R0603  
R0603  
CR0603-16W-000  
CR0603-16W-000  
Venkel  
Venkel  
R120,  
R121  
32  
33  
1
4
R18  
1.2 k  
10 k  
1/10 W  
1/10 W  
±5%  
±5%  
ThickFilm  
ThickFilm  
R0603  
R0603  
CR0603-10W-121J  
CR0603-10W-103J  
Venkel  
Venkel  
R101,  
R102,  
R103,  
R104,  
R106  
14  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Table 4. Si24xx Daughter Card Bill of Materials (Continued)  
Item Qty  
Ref  
Value  
1 k  
Rating  
1/10 W  
1/10 W  
Voltage  
Tol  
Type  
PCB Footprint  
R0603  
Mfr Part Number  
CR0603-10W-102J  
CR0603-10W-2000J  
Mfr  
34  
35  
1
3
R105  
±5%  
±5%  
ThickFilm  
ThickFilm  
Venkel  
Venkel  
R110,  
R111,  
R112  
200   
R0603  
36  
37  
38  
1
1
1
U2  
Si3018  
Si24xx  
300 V  
LineSide  
SO16N6.0P1.27  
TSSOP24N6.4P0.65  
16pin SOIC  
Si3018-F-GS  
Si2493-E-FT  
2493  
SiLabs  
SiLabs  
U12  
U13  
ISOMODEM  
Si24xx-16 pin  
Silicon  
Laboratories  
39  
40  
1
1
Y1B  
(Y1, Y3)  
32.768 kHz  
43 V  
XTAL-3X8-LD  
SOD-123  
ECS–.327–12.5–8X  
BZT52C43-7-F  
ECS  
International  
Z1  
500 mW  
43 V  
Zener  
Diodes Inc.  
Rev. 0.7  
15  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
C
V C  
D G N  
8
4
D
G N  
1 0  
C
V C  
2 0  
C
V C  
D
G N  
C
V C  
D G N  
1 6  
8
1 6  
8
16  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
2
1
D
V D  
D G N  
6
7
2
1
Rev. 0.7  
17  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
18  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
1 0 K  
R 1 1 0  
C
V C  
D G N  
2 6  
2
1 0 K  
R 1 0 9  
1 0 K  
R 1 1 1  
1 5 V  
D N 8  
1 5 V  
D N 7  
D
V D  
D
D
G N  
G N  
6
E P A D  
3
1 5 V  
1 5 V  
1 5 V  
D N 6  
D N 5  
D N 4  
1 5 V  
1 5 V  
D N 3  
D N 2  
1 5 V  
D N 1  
M H  
M H  
S H  
S H  
1 1  
1 0  
5
6
Rev. 0.7  
19  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
5. Bill of Materials: Si24xx Motherboard  
Table 5. Si24xx Motherboard Bill of Materials  
Item Qty  
Ref  
Value  
Rating Voltage Tol  
Type  
PCB Footprint  
Mfr Part Number  
Mfr  
1
8
C21, C23,  
C37, C43,  
C54, C55,  
C69, C74  
1 µF  
10 V  
±10%  
X7R  
C0603  
C0603X7R100-105K  
Venkel  
2
17  
C24, C25,  
C26, C27,  
C53, C56,  
C57, C58,  
C59, C61,  
C62, C63,  
C71, C72,  
C75, C96,  
C98  
0.1 µF  
10 V  
±20%  
X7R  
C0402  
C0402X7R100-104M  
Venkel  
3
4
3
1
C42, C51,  
C60  
0.01 µF  
470 µF  
25 V  
25 V  
±10%  
X7R  
C0402  
C0402X7R250-103K  
Venkel  
C44  
±20% Alum_Ele C10.3X10.3MM EMVE250ADA471MJA0G  
c
United  
Chemicon  
5
6
7
1
2
3
C48  
0.1 µF  
10 µF  
50 V  
16 V  
16 V  
±10%  
±10%  
±10%  
X7R  
X5R  
X7R  
C0603  
C0805  
C0603  
C0603X7R500-104K  
C0805X5R160-106K  
C0603X7R160-561K  
Venkel  
Venkel  
Venkel  
C49, C66  
C52, C70,  
C73  
560 pF  
8
9
1
8
C97  
1 nF  
15 V  
100 V ±10%  
15 V  
X7R  
C0603  
C0603X7R101-102K  
MMBZ15VDLT1G  
Venkel  
DN1, DN2,  
DN3, DN4,  
DN5, DN6,  
DN7, DN8  
225 mW  
Zener,  
Dual  
SOT23-AAK  
On Semi  
10  
11  
2
1
D11, D13  
D12  
STPS140Z  
1.0 A  
0.8 A  
40 V  
Schottky  
BRIDGE  
SOD-123  
MiniDIP4  
STPS140Z  
HD01-T  
ST MICRO  
Diodes Inc.  
Bridge  
100 V  
Rectifier  
12  
13  
3
D14, D15, MMBD300 225 mA 300 V  
DUAL  
SOT23-AKC  
MMBD3004S-7-F  
HSMC-C170  
Diodes Inc.  
D49  
4S-7-F  
11  
D41, D42,  
D43, D44,  
D45, D46,  
D47, D48,  
D50, D52,  
D53  
RED  
25 mA  
1.9 V  
SMT,  
Chip LED  
LED-HSMX-  
C170  
Avago  
Technologies  
14  
15  
1
5
D54  
BAV23A  
400 mA 200 V  
DUAL  
SMT  
SOT23-KKA  
L0603  
BAV23A  
Diodes Inc.  
MuRata  
FB6, FB7,  
FB8, FB9,  
FB11  
600 Ohm 200 mA  
BLM18AG601SN1  
16  
17  
4
4
HW1, HW2,  
HW3, HW4  
spacer  
screw  
2397  
SPC  
Technology  
HW5, HW6,  
HW7, HW8  
NSS-4-4-01  
Richco  
Plastic Co  
20  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Table 5. Si24xx Motherboard Bill of Materials (Continued)  
Item Qty  
Ref  
Value  
Rating Voltage Tol  
Type  
PCB Footprint  
Mfr Part Number  
Mfr  
18  
1
JP11  
HEADER  
4X1  
Header  
CONN-1X4  
TSW-104-07-T-S  
Samtec  
19  
20  
2
1
JP12, JP14 JUMPER  
Header  
Header  
CONN-1X2  
CONN-1X3  
TSW-102-07-T-S  
TSW-103-07-T-S  
Samtec  
Samtec  
JP23  
HEADER  
1x3  
21  
22  
23  
24  
25  
3
1
1
1
1
JP33, JP34, JUMPER  
JP35  
Unshroud  
ed  
CONN-1X2  
68000-402  
MTJG-2-64-2-2-1  
TSW-105-07-S-T  
1729018  
Berg  
J5  
J6  
J8  
J9  
RJ-11  
RJ-11  
RJ11-DUAL-  
MTJG  
ADAM TECH  
Samtec  
HEADER  
5x3  
Header  
CONN  
TRBLK 2  
TERM  
BLK  
CONN-1X2-TB  
PHOENIX  
CONTACT  
Power  
Jack  
1 A  
BARREL CONN-3-PWR  
ADC-002-1  
Adam Tech  
26  
27  
1
1
J10  
J11  
DB9  
D-SUB  
USB  
CONN-9-DBF  
CONN-USB-B  
D09S33E4GX00LF  
292304-1  
FCI  
USB Type  
B
Tyco  
28  
1
J101  
HEADER  
8x2  
Header  
Header  
CONN2X8  
16/80 pins of 9-146252-0- Tyco/AMP  
08  
29  
30  
1
1
J102  
J103  
Socket 1x4  
SSW-104-01-T-S  
5103309-3  
Samtec  
Tyco  
8X2  
Shrouded CONN2X8-4W  
Shrouded  
Header  
31  
32  
1
7
LS1  
SPEAKER 0.5 W  
Max  
RE-2308-NL  
RE-2308-NL  
Regal  
R31, R40,  
R41, R42,  
R43, R52,  
R109, R110,  
R111, R112  
10 k  
1/10 W  
±1% ThickFilm  
R0603  
R0603  
CR0603-10W-1002F  
Venkel  
33  
3
R33, R34,  
R35  
1 k  
1/16 W  
±1% ThickFilm  
CR0603-16W-1001F  
Venkel  
34  
35  
36  
37  
38  
39  
40  
1
1
1
1
1
2
R48  
R57  
100 k  
0.05   
1   
1/10 W  
1/4 W  
±1% ThickFilm  
±5% ThickFilm  
±1% ThickFilm  
±5% ThickFilm  
±1% ThickFilm  
±5% ThickFilm  
±1% ThickFilm  
R0603  
R0805  
R0603  
R0603  
R0603  
R1206  
R0603  
CR0603-10W-1003F  
LCR0805-R050J  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
Venkel  
R59  
1/10 W  
1/10 W  
1/10 W  
1/4 W  
CR0603-10W-1R00F  
CR0603-10W-2000J  
CR0603-10W-1331F  
CR1206-8W-1R6J  
CR0603-10W-6810F  
R101  
200   
1.33 k  
1.6   
R102  
R103, R105  
11 R155, R156,  
R157, R158,  
R159, R160,  
R161, R162,  
R163, R169,  
R170  
681   
1/10 W  
Rev. 0.7  
21  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Table 5. Si24xx Motherboard Bill of Materials (Continued)  
Item Qty  
Ref  
Value  
Rating Voltage Tol  
Type  
PCB Footprint  
Mfr Part Number  
Mfr  
41  
3
R172, R173,  
R174  
20.0 k  
1/16 W  
±1% ThickFilm  
R0603  
CR0603-16W-2002F  
Venkel  
42  
43  
1
1
R175  
S1  
0
2 A  
ThickFilm  
Tactile  
R1206  
CR1206-4W-000  
101-0161-EV  
Venkel  
SW PUSH- 50 mA 12 Vdc  
BUTTON  
SW4N6.5X4.5-  
PB  
Mountain  
Switch  
44  
10  
TP5, TP6,  
TP16, TP17,  
TP19, TP20,  
TP21, TP22,  
TP23, TP24  
BLUE  
Loop  
TESTPOINT  
151-205-RC  
Kobiconn  
45  
4
TP7, TP8,  
TP9, TP25  
Turret  
RED  
Turret  
TP[12594]  
2551-2-00-44-00-00-07-0  
Mill-Max  
46  
47  
1
1
TP11  
U3  
Loop  
LDO  
TESTPOINT  
SOT223  
151-207-RC  
Kobiconn  
LT1963A-  
3.3 V  
1.5 A  
max  
LT1963AEST-3.3#PBF  
Linear Tech-  
nologies  
48  
49  
1
1
U5  
EEPROM  
32K  
Serial  
LDO  
TSSOP8N6.4P0.  
65  
25LC320A-I/ST  
LM2937ES-5.0  
Microchip  
Technology  
U10  
5
0.5 A  
max  
TO263-3N  
National  
Semiconduc-  
tors  
50  
51  
1
1
U11  
U12  
MAX3237  
CP2102  
5.5 V  
3.3 V  
RS232  
MCU  
TSSOP  
MAX3237EIPWR  
CP2102-GM  
TI  
QFN28N5X5P0.  
5
SiLabs  
52  
53  
54  
55  
2
1
1
1
U13, U14  
U18  
IDT74CBT  
LV3257  
TSSOP-16  
IDT74CBTLV3257  
DS1818-10  
IDT  
DS1818  
10%  
SOT-23  
Dallas Semi-  
conductor  
U26  
74LCX541  
Buffer  
TSSOP20N6.4P  
0.65  
74LCX541MTC  
LM4819M  
Fairchild  
U27  
LM4819 350 mW  
SO8N6.0P1.27  
National  
Semiconduc-  
tor  
Unpopulated Components  
56  
1
J7  
2MM, RT  
ANG  
SHROUD CONN1X5-S5B-  
S5B-PH-SM4-TB  
JST  
ED  
±1% ThickFilm  
ThickFilm  
PH-SM4-TB  
1
1
1
1
R39  
10 k  
1/10 W  
1 A  
R0603  
CR0603-10W-1002F  
CR0603-16W-000  
Venkel  
Venkel  
R108  
0
R0603  
22  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Rev. 0.7  
23  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
24  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Rev. 0.7  
25  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
26  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Rev. 0.7  
27  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
28  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Rev. 0.7  
29  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
30  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
Rev. 0.7  
31  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
32  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
6. Complete Design Package on CD  
(See Sales Representative for  
Details)  
Silicon Laboratories can provide a complete design  
package of the Si2493/57/34/15/04-EVB including the  
following:  
OrCad Schematics  
Gerber Files  
BOM  
Documentation  
Contact your local sales representative or Silicon  
Laboratories  
information.  
headquarters  
sales  
for  
ordering  
Rev. 0.7  
33  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
DOCUMENT CHANGE LIST  
Revision 0.2 to Revision 0.3  
Updated Figure 15, “Daughter Card Secondary Side  
Silkscreen,” on page 24.  
Updated Figure 16, “Daughter Card Primary Side  
Layout,” on page 25.  
Updated Figure 17, “Daughter Card Secondary Side  
Layout,” on page 26.  
Updated “Bill of Materials: Si24xx Daughter Card” .  
Revision 0.3 to Revision 0.4  
Changed from Rev.1.0 to Rev.1.1 Daughter Card.  
Revision 0.4 to Revision 0.5  
Changed from Rev.3.1 to Rev.3.2 Motherboard.  
Revision 0.5 to Revision 0.6  
Changed from Rev.1.1 to Rev.1.2 Daughter Card.  
Added FS (SOIC) Package Option.  
Revision 0.6 to Revision 0.7  
Changed R1.2 to 2.0 daughtercard.  
Changed R32 to 5.0 motherboard.  
Changed power amplifier chip and speakers.  
Removed connector to SSI BUS.  
Changed regulator and power on reset circuit.  
Changed various jumper locations.  
34  
Rev. 0.7  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
NOTES:  
Rev. 0.7  
35  
Si2493/57/34/15/04  
Global ISOmodem-EVB  
CONTACT INFORMATION  
Silicon Laboratories Inc.  
400 West Cesar Chavez  
Austin, TX 78701  
Tel: 1+(512) 416-8500  
Fax: 1+(512) 416-9669  
Toll Free: 1+(877) 444-3032  
Please visit the Silicon Labs Technical Support web page:  
https://www.silabs.com/support/pages/contacttechnicalsupport.aspx  
and register to submit a technical support request.  
The information in this document is believed to be accurate in all respects at the time of publication but is subject to change without notice.  
Silicon Laboratories assumes no responsibility for errors and omissions, and disclaims responsibility for any consequences resulting from  
the use of information included herein. Additionally, Silicon Laboratories assumes no responsibility for the functioning of undescribed features  
or parameters. Silicon Laboratories reserves the right to make changes without further notice. Silicon Laboratories makes no warranty, rep-  
resentation or guarantee regarding the suitability of its products for any particular purpose, nor does Silicon Laboratories assume any liability  
arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation conse-  
quential or incidental damages. Silicon Laboratories products are not designed, intended, or authorized for use in applications intended to  
support or sustain life, or for any other application in which the failure of the Silicon Laboratories product could create a situation where per-  
sonal injury or death may occur. Should Buyer purchase or use Silicon Laboratories products for any such unintended or unauthorized ap-  
plication, Buyer shall indemnify and hold Silicon Laboratories harmless against all claims and damages.  
Silicon Laboratories, Silicon Labs, and ISOmodem are trademarks of Silicon Laboratories Inc.  
Other products or brandnames mentioned herein are trademarks or registered trademarks of their respective holders.  
36  
Rev. 0.7  
配单直通车
CR0805-8W-1005FT产品参数
型号:CR0805-8W-1005FT
是否无铅: 不含铅
是否Rohs认证: 符合
生命周期:Active
IHS 制造商:VENKEL LTD
包装说明:SMT, 0805
Reach Compliance Code:compliant
ECCN代码:EAR99
Factory Lead Time:5 weeks 5 days
风险等级:5.61
构造:Rectangular
JESD-609代码:e3
安装特点:SURFACE MOUNT
端子数量:2
最高工作温度:155 °C
最低工作温度:-55 °C
封装高度:0.45 mm
封装长度:2 mm
封装形状:RECTANGULAR PACKAGE
封装形式:SMT
封装宽度:1.25 mm
包装方法:TR, PAPER, 7 INCH
额定功率耗散 (P):0.125 W
额定温度:70 °C
电阻:10000000 Ω
电阻器类型:FIXED RESISTOR
尺寸代码:0805
表面贴装:YES
技术:METAL GLAZE/THICK FILM
温度系数:350 ppm/ °C
端子面层:Matte Tin (Sn) - with Nickel (Ni) barrier
端子形状:WRAPAROUND
容差:1%
工作电压:150 V
Base Number Matches:1
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