Si2457/34/15/04 Datasheet by Skyworks Solutions Inc.

View All Related Products | Download PDF Datasheet
SILIEIJN LABS 33333333 333333333333 DDDDDDDD E EEEEEEEEEEEE EEEEEEEE
Rev. 1.3 12/10 Copyright © 2010 by Silicon Laboratories Si2457/34/15/04
Ordering Information
This data sheet is valid only for
those chipset combinations listed
on page 50.
Pin Assignments
CLKIN/XTALI
2
3
4
5
6
7
89
10
11
12
13
14
15
16
XTALO
RI
VD
MISO/RXD
MOSI/TXD
SCLK/CTS
RESET C2A
C1A
INT
GND
VA
ESC
DCD
SS/RTS
1
Si2457/34/15/04
(16-Pin Option)
1
2
3
4
5
6
7
8
9
10
11
12 13
14
15
16
17
18
19
20
21
22
23
24
Si2457/34/15/04
(24-Pin Option)
CLKIN/XTALI
XTALO
CLKOUT/EECS/A0
FSYNC/D6
VD3.3
GND
VDA
SS/RTS/D7
MISO/RXD/RD
MOSI/TXD/WR
SCLK/CTS/CS
RESET
AOUT/INT
RI/D1
SDI/EESD/D2
VDB
VD3.3
ESC/D3
DCD/D4
GND
SDO/EECLK/D5
INT/DO
C1A
C2A
QE
2
3
4
5
6
7
89
10
11
12
13
14
15
16
DCT
RX
IB
C1B
C2B
VREG
RNG1 RNG2
VREG2
SC
QE2
QB
DCT3
IGND
DCT2
1
Si3018/10
Si2457/34/15/04
V.90, V.34, V.32BIS, V.22BIS ISOMODEM® WITH GLOBAL DAA
Features
Applications
Description
The ISOmodem® family of products is a complete modem ranging in speed
from 56,000 bps to 2400 bps. Offered as a chipset with the Si2457, Si2434,
Si2415, or Si2404 system-side device and the Si3018/10 line-side device,
the ISOmodem utilizes Silicon Laboratories’ patented direct access
arrangement (DAA) technology to provide a programmable telephone line
interface with an unparalleled level of integration. These compact solutions
eliminate the need for a separate DSP, modem controller, codec,
transformer, relay, opto-isolators, clocking crystal, and 2-4 wire hybrid.
Available with a system-side packaging option of either a 16-pin SOIC or a
24-pin TSSOP, these devices are ideal for embedded modem applications
due to their flexibility, small footprint, and minimal external component
count.
System Block Diagram
This data sheet applies to Si2457/34/
15/04 Revision D
Data modem formats
ITU-T, Bell
300 bps up to 56 kbps
V.21,V.22, V.29 Fast Connect
V.44, V.42, V.42bis, MNP2-5
Automatic rate negotiation
Type I and II caller ID decode
No external ROM or RAM required
UART, SPI, or parallel interface
Flexible clock options
Low-cost 32.768 kHz oscillator
4.915 MHz oscillator
27 MHz clock input
Integrated DAA
Over 6000 V capacitive
isolation
Parallel phone detect
Globally-compliant line
interface
Overcurrent detection
AT command set support
SMS / MMS support
Firmware upgradeable
EEPROM interface
Lead-free, RoHS-compliant
packages
Commercial or industrial
temperature range
DTMF detection/generation
Set-top boxes
Point-of-sale terminals
Text / video telephones
Digital video recorder
Digital televisions
Remote monitoring
Host
CPU Host Interface Telco
Si24xx
System
Side
Si3018
Line
Side
Global
DAA
BOM
Tip
Ring
UART
SPI
Parallel Capacitive
Isolation Barrier
($9 SILICON LABS
Si2457/34/15/04
2 Rev. 1.3
Section 659' SILIEIJN LABS
Si2457/34/15/04
Rev. 1.3 3
TABLE OF CONTENTS
Section Page
1. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
2. Typical Application Schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11
3. Bill of Materials: Si2457/34/15/04 Chipset . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13
4. Functional Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
4.1. Host Interface . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
4.2. Command Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.3. Data Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.4. Fast Connect . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.5. V.80 Synchronous Access Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.6. Clocking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.7. Low-Power Modes . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.8. Data Compression . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.9. Error Correction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.10. Wire Mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
4.11. Caller ID Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
4.12. Parallel Phone Detection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19
4.13. Overcurrent Detection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.14. Global Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.15. Firmware Upgrades . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.16. DTMF Detection / Generation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.17. SMS/MMS Support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.18. Codec Interface (24-Pin Version Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.19. EEPROM Interface (24-Pin Version Only) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.20. AT Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 21
4.21. Extended AT Commands . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 30
5. S-Registers . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 41
6. User-Access Registers (U-Registers) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44
7. Pin Descriptions: Si2457/34/15/04 (16-Pin Option) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 45
8. Pin Descriptions: Si2457/34/15/04 (24-Pin Option) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 47
9. Pin Descriptions: Si3018/10 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49
10. Ordering Guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 50
11. Package Markings (Top Markings) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
11.1. Si2457-D-FT Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
11.2. Si2457-D-FS Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
11.3. Si2434-D-FT Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 51
11.4. Si2434-D-FS Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
11.5. Si2415-D-FT Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
11.6. Si2415-D-FS Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
11.7. Si2404-D-FT Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52
11.8. Si2404-D-FS Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53
11.9. Si3010-F-FS Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53
11.10. Si3018-F-FS Top Marking . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 53
12. Package Outline: 24-Pin TSSOP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 54
13. 24-Pin TSSOP Land Pattern . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 55
14. Package Outline: 16-Pin SOIC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56
15. 16-Pin SOIC Land Pattern . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 58
Document Change List . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59
Contact Information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 60
($9 SILICON LABS
Si2457/34/15/04
4 Rev. 1.3
1. Electrical Specifications
Table 1. Recommended Operating Conditions
Parameter1Symbol Test Condition Min2Typ Max2Unit
Ambient Temperature TAF-grade
G-grade 0
–40 25
25 70
85 °C
Si2457/34/15/04 Supply Voltage,
Digital3VD3.0 3.3 3.6 V
Notes:
1. The Si2457/34/15/04 specifications are guaranteed when the typical application circuit (including component tolerance)
and any Si2457/34/15/04 and any Si3018 are used. See "2. Typical Application Schematic" on page 11.
2. All minimum and maximum specifications are guaranteed and apply across the recommended operating conditions.
Typical values apply at nominal supply voltages and an operating temperature of 25 °C unless otherwise stated.
3. The digital supply, VD, operates from 3.0 to 3.6 V.
Table 2. Loop Characteristics
(VD=3.0 to 3.6 V, TA=0 to 70 °C for F-grade, TA=–40 to 85 °C for G-grade)
Parameter Symbol Test Condition Min Typ Max Unit
DC Termination Voltage VTR IL= 20 mA, ILIM1=0
DCV = 00, MINI = 11, DCR = 0 ——6.0V
DC Termination Voltage VTR IL= 120 mA, ILIM = 0
DCV = 00, MINI = 11, DCR = 0 9—V
DC Termination Voltage VTR IL=20mA, ILIM=0
DCV = 11, MINI = 00, DCR = 0 ——7.5V
DC Termination Voltage VTR IL= 120 mA, ILIM = 0
DCV = 11, MINI = 00, DCR = 0 9—V
DC Termination Voltage VTR IL=20mA, ILIM=1
DCV = 11, MINI = 00, DCR = 0 ——7.5V
DC Termination Voltage VTR IL=60mA, ILIM=1
DCV = 11, MINI = 00, DCR = 0 40 — V
DC Termination Voltage VTR IL=50mA, ILIM=1
DCV = 11, MINI = 00, DCR = 0 ——40 V
On-Hook Leakage Current ILK VTR = –48 V 5 µA
Operating Loop Current ILP MINI = 00, ILIM = 0 10 120 mA
Operating Loop Current ILP MINI = 00, ILIM = 1 10 60 mA
DC Ring Current DC current flowing through ring
detection circuitry —1.5 3 µA
Ring Detect Voltage2VRD RT = 0 12 15 18 VRMS
Ring Detect Voltage2VRD RT = 1 18 21 25 VRMS
Ring Frequency FR15 — 68 Hz
Ringer Equivalence Number REN 0.2
Notes:
1. ILIM = U67, bit 9; DCV = U67, bits 3:2; MINI = U67, bits 13:12; DCR = U67, bit 7; RT = U67, bit 0.
2. The ring signal is guaranteed to not be detected below the minimum. The ring signal is guaranteed to be detected
above the maximum.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 5
Figure 1. Test Circuit for Loop Characteristics
Table 3. DC Characteristics, VD= 3.0 to 3.6 V
(VD= 3.0 to 3.6 V, TA= 0 to 70 °C for F-grade, TA=–40 to 85 °C for G-grade)
Parameter Symbol Test Condition Min Typ Max Unit
High Level Input Voltage VIH 2.0 — V
Low Level Input Voltage VIL ——0.8V
High Level Output Voltage VOH IO=–2mA 2.4 V
Low Level Output Voltage VOL IO= 2 mA 0.35 V
Input Leakage Current IL–10 — 10 µA
Pullup Resistance Pins RPU 50 125 200 k
Total Supply Current*ID—1735mA
Total Supply Current, Wake on Ring*ID—4.4mA
Total Supply Current, Powerdown*IDPDN = 1 80 µA
*Note: All inputs at 0 or VD. All inputs held static except clock and all outputs unloaded (Static IOUT =0mA).
Si3018
TIP
RING
10 µF
600
IL
VTR
+
($9 SILICON LABS
Si2457/34/15/04
6 Rev. 1.3
Table 4. AC Characteristics
(VD= 3.0 to 3.6 V, TA = 0 to 70 °C for F-grade, Fs = 8 kHz, TA=–40 to 85 °C for G-grade)
Parameter Symbol Test Condition Min Typ Max Unit
Sample Rate Fs 8 kHz
Clock Input Frequency FXTL default — 4.9152 — MHz
Clock Input Frequency FXTL 27 MHz Mode1—27—MHz
Clock Input Frequency FXTL 32 kHz Mode1— 32.768 — kHz
Receive Frequency Response Low –3 dBFS Corner, FILT = 0 5 Hz
Receive Frequency Response Low –3 dBFS Corner, FILT = 1 200 Hz
Transmit Full Scale Level2VFS —1.1—V
PEAK
Receive Full Scale Level2,3 VFS —1.1—V
PEAK
Dynamic Range4DR ILIM = 0, DCV = 11, MINI = 00
DCR = 0, IL= 100 mA —80— dB
Dynamic Range4DR ILIM = 0, DCV = 00, MINI = 11
DCR = 0, IL=20mA —80— dB
Dynamic Range4DR ILIM = 1, DCV = 11, MINI = 00
DCR = 0, IL=50mA —80— dB
Transmit Total Harmonic Distor-
tion5THD ILIM = 0, DCV = 11, MINI = 00
DCR = 0, IL= 100 mA —–72— dB
Transmit Total Harmonic Distor-
tion5THD ILIM = 0, DCV = 00, MINI = 11
DCR = 0, IL=20mA —–78— dB
Receive Total Harmonic Distor-
tion5THD ILIM = 0, DCV = 00, MINI = 11
DCR = 0, IL=20mA —–78— dB
Receive Total Harmonic Distor-
tion5THD ILIM = 1,DCV = 11, MINI=00
DCR = 0, IL=50mA —–78— dB
Dynamic Range (Caller ID Mode) DRCID VIN = 1 kHz, –13 dBm 50 dB
Notes:
1. Refer to “AN93: ISOmodem® Chipset Family Designer's Guide” for configuring clock input reset strapping.
2. Measured at TIP and RING with 600 termination at 1 kHz, as shown in Figure 1 on page 5.
3. Receive full scale level produces –0.9 dBFS at DTX.
4. DR = 20 x log |Vin| + 20 x log (rms signal/rms noise). Applies to both transmit and receive paths. Vin = 1 kHz, –3 dBFS.
5. Vin = 1 kHz, –3 dBFS. THD = 20 x log (rms distortion/rms signal).
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 7
Table 5. Absolute Maximum Ratings
Parameter Symbol Value Unit
DC Supply Voltage VD4.1 V
Input Current, Si2457/34/15/04 Digital
Input Pins IIN ±10 mA
Digital Input Voltage VIND –0.3 to (VD + 0.3) V
CLKIN/XTALI Input Voltage VXIND –0.3 to (VD + 0.3) V
Operating Temperature Range TA–10 to 100 °C
Storage Temperature Range TSTG –40 to 150 °C
Note: Permanent device damage may occur if the above absolute maximum ratings are exceeded. Functional operation
should be restricted to the conditions as specified in the operational sections of this data sheet. Exposure to absolute
maximum rating conditions for extended periods may affect device reliability.
Table 6. Switching Characteristics1
(VD= 3.0 to 3.6 V, TA= 0 to 70 °C for F-grade, TA=–40 to 85 °C for G-grade)
Parameter Symbol Min Typ Max Unit
UART Timing Parameters
Baud Rate Accuracy tBD –1 1 %
Reset Timing Parameters
RESET to RESET tRS 5.02——ms
RESET to 1st AT Command tAT 300 — ms
Parallel Timing Parameters
Address Setup tAS 15 — ns
Address Hold tAH 0—ns
WR Low Pulse Width tWL 50 — ns
Write Data Setup Time tWDSU 20 — ns
Write Cycle Time tWC 120 — ns
Chip Select Setup tCSS 10 — ns
Chip Select Hold tCSH 0—ns
RD Low Pulse Width tRL 50 — ns
RD Low to Data Driven Time tRLDD 20 ns
Data Hold tDH 10 — ns
RD High to Hi-Z Time tDZ 30 ns
Notes:
1. All timing is referenced to the 50% level of the waveform. Input test levels are VIH =V
D – 0.4 V, VIL =0.4V.
2. With 32.768 kHz clocking, allow 500 ms for the reset low-to-high minimum pulse on power-up and wake-from-power-
down conditions.
SSSSSSSSSSS
Si2457/34/15/04
8 Rev. 1.3
Figure 2. SPI Slave Timing
Read Cycle Time tRC 120 — ns
Write to Read Cycle Time tWRC 120 — ns
Serial Peripheral Interface (SPI) Timing Parameters
SS Falling to First SCLK Edge tSE 41 ns
Last SCLK Edge to SS Rising tSD 41 ns
SS Rising to MISO High-Z tSDZ ——93
ns
SCLK High Time tCKH 102 ns
SCLK Low Time tCKL 102 ns
MOSI Valid to SCLK Sample Edge tSIS 41 ns
SCLK Sample Edge to MOSI Change tSIH 41 ns
SCLK Shift Edge to MISO Change tSOH ——93
ns
SCLK cycle time tSCK 224 ns
Inactive time between SS actives tNSS_INACT 81 ns
Table 6. Switching Characteristics1 (Continued)
(VD= 3.0 to 3.6 V, TA= 0 to 70 °C for F-grade, TA=–40 to 85 °C for G-grade)
Parameter Symbol Min Typ Max Unit
Notes:
1. All timing is referenced to the 50% level of the waveform. Input test levels are VIH =V
D – 0.4 V, VIL =0.4V.
2. With 32.768 kHz clocking, allow 500 ms for the reset low-to-high minimum pulse on power-up and wake-from-power-
down conditions.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 9
Figure 3. Parallel Interface Read Timing
Figure 4. Parallel Interface Write Timing
tCSH
tCSS
tAS tAH
ADDRESS = 0 or 1
tRL tRC
tRLDD tDH
tRLDD
VALID DATA VALID DATA
A0
D[7:0]
CS
RD tDZ
tCSH
tCSS
tAS tAH
tWC
tWL
ADDRESS = 0 or 1
tWDSU
tDH
VALID DATA VALID DATA
A0
D[7:0]
CS
WR
SSSSSSSSSSS
Si2457/34/15/04
10 Rev. 1.3
Figure 5. Parallel Interface Write Followed by Read Timing
ADDRESS = 0 or 1
tWDSU tDH
VALID DATA VALID DATA
D[7:0]
WR
RD
A0
CS
tWRC
tRLDD
Si2457/34/15/04
Rev. 1.3 11
2. Typical Application Schematic
RTS_
DCD_
ESC
INT_
TXD
RESET_
RXD
CTS_
GPIO
VDD
RING
TIP
Refer to AN93 Appendix A for layout guidelines.
Please submit layout to Silicon Labs for review
prior to PCB fabrication.
R5
R9
R7
C51
-+
D1
C40
R4
C50
R10
+
C4
Z1
C10
C6
C9
Q4
C5
FB1
R3
R16
C1
R2
R6
R8
Y1
12
C3 R15
FB2
C41 R1
Q3
U2
QE 1
DCT 2
RX 3
IB
4
C1B
5
C2B
6
VREG
7
RNG1 8
DCT2 16
IGND
15
DCT3 14
QB 13
QE2 12
SC
11
VREG2
10 RNG2 9
U1
CLKIN/XTALI 1
XTALO 2
GPIO
3
VD 4
RXD
5
TXD
6
CTS
7
RESET
8
C2A 9
C1A 10
INT
11
GND
12
VA
13
ESC
14 DCD
15 RTS
16
C7
R12
Q5
Q2
C8
R11
RV1
C2R13
Q1
Emissions option
External crystal option
Figure 6. Typical Si2457/34/15/04 Schematic with 16-pin System-Side Option
Si2457/34/15/04
12 Rev. 1.3
RTS_
DCD_
ESC
INT_
TXD
RESET_
RXD
CTS_
GPIO
VDD
RING
TIP
Refer to AN93 Appendix A for layout guidelines.
Please submit layout to Silicon Labs for review
prior to PCB fabrication.
R5
R9
R7
C51
-+
D1
C40
R4
C50
R10
+
C4
Z1
C10
C6
C9
Q4
C5
FB1
R3
R16
C1
R2
R6
R8
Y1
12
C3 R15
FB2
C41 R1
Q3
U2
QE 1
DCT 2
RX 3
IB
4
C1B
5
C2B
6
VREG
7
RNG1 8
DCT2 16
IGND
15
DCT3 14
QB 13
QE2 12
SC
11
VREG2
10 RNG2 9
U1
CLKIN/XTALI 1
XTALO 2
GPIO
3
VD 4
RXD
5
TXD
6
CTS
7
RESET
8
C2A 9
C1A 10
INT
11
GND
12
VA
13
ESC
14 DCD
15 RTS
16
C7
R12
Q5
Q2
C8
R11
RV1
C2R13
Q1
Emissions option
External crystal option
Figure 7. Typical Si2457/34/15/04 Schematic with 24-pin System-Side Option
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 13
3. Bill of Materials: Si2457/34/15/04 Chipset
Component Value Supplier(s)
C1, C2 33 pF, Y2, X7R, ±20% Panasonic, Murata, Vishay
C3 10 nF, 250 V, X7R, ±20% Venkel, SMEC
C4 1.0 µF, 50 V, Elec/Tant, ±20% Panasonic
C5, C6, C50, C5210.1 µF, 16 V, X7R, ±20% Venkel, SMEC
C7 2.7 nF, 50 V, X7R, ±20% Venkel, SMEC
C8, C9 680 pF, Y2, X7R, ±10% Panasonic, Murata, Vishay
C10 0.01 µF, 16 V, X7R, ±20% Venkel, SMEC
C40
C41
32.768 kHz: 18 pF, 16 V, NPO, ±5% Venkel, SMEC
4.9152 MHz: 33 pF, 16 V, NPO, ±5%
27 MHz: Not Populated
C51, C5310.22 µF, 16 V, X7R, ±20% Venkel, SMEC
D1, D22Dual Diode, 225 mA, 300 V, CMPD2004S Central Semiconductor
FB1, FB2 Ferrite Bead, BLM21AG601SN1 Murata
Q1, Q3 NPN, 300 V, MMBTA42 OnSemi, Fairchild
Q2 PNP, 300 V, MMBTA92 OnSemi, Fairchild
Q4, Q5 NPN, 80 V, 330 mW, MMBTA06 OnSemi, Fairchild
RV1 Sidactor, 275 V, 100 A Teccor, Protek, ST Micro
R1 1.07 k, 1/2 W, 1% Venkel, SMEC, Panasonic
R2 150 , 1/16 W, 5% Venkel, SMEC, Panasonic
R3 3.65 k, 1/2 W, 1% Venkel, SMEC, Panasonic
R4 2.49 k, 1/2 W, 1% Venkel, SMEC, Panasonic
R5, R6 100 k, 1/16 W, 5% Venkel, SMEC, Panasonic
R7, R8 20 M, 1/16 W, 5% Venkel, SMEC, Panasonic
R9 1 M, 1/16 W, 1% Venkel, SMEC, Panasonic
R10 536 , 1/4 W, 1% Venkel, SMEC, Panasonic
R11 73.2 , 1/2 W, 1% Venkel, SMEC, Panasonic
R12, R13 56 , 1/16 W, 1% Venkel, SMEC, Panasonic
R15, R1630, 1/16 W Venkel, SMEC, Panasonic
U1 Si2457/34/15/04 Silicon Labs
U2 Si3018/10 Silicon Labs
Y1432.768 kHz, 12 pF, 100 ppm, 35 k max ESR ECS Inc., Siward
4.9152 MHz, 20 pF, 100 ppm, 150 ESR
27 MHz (from external clock)
Z1 Zener Diode, 43 V, 1/2 W, BZT84C43 On Semi
Notes:
1. C52 and C53 should not be populated with the Si2457/34/15/04 16-pin package option.
2. Several diode bridge configurations are acceptable. For example, a single DF04S or four 1N4004 diodes may be used.
3. Murata BLM21AG601SN1 may be substituted for R15–R16 (0 ) to decrease emissions.
4. To ensure compliance with ITU specifications, frequency tolerance must be less than 100 ppm including initial
accuracy, 5-year aging, 0 to 70 °C, and capacitive loading.
($9 SILICON LABS
Si2457/34/15/04
14 Rev. 1.3
Table 7. Protocol Characteristics
Item Specification
Data Rate
56 kbps1
54.666 kbps1
53.333 kbps1
52 kbps1
50.666 kbps1
49.333 kbps1
48 kbps1
46.666 kbps1
45.333 kbps1
44 kbps1
42.666 kbps1
41.333 kbps1
40 kbps1
38.666 kbps1
37.333 kbps1
36 kbps1
34.666 kbps1
33.333 kbps1
32 kbps1
30.666 kbps1
29.333 kbps1
28 kbps1
33.6 kbps2
31.2 kbps2
28.8 kbps2
26.4 kbps2
24.0 kbps2
21.6 kbps2
19.2 kbps2
16.8 kbps2
14.4 kbps3
12.0 kbps3
9600 bps3
7200 bps3
4800 bps3
2400 bps
1200 bps
300 bps
300 bps
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.901
ITU-T V.342
ITU-T V.342
ITU-T V.342
ITU-T V.342
ITU-T V.342
ITU-T V.342
ITU-T V.342
ITU-T V.342
ITU-T V.34 or V.32bis3
ITU-T V.34 or V.32bis3
ITU-T V.34, V.32bis, or V.293
ITU-T V.34 or V.32bis3
ITU-T V.34 or V.32bis3
ITU-T V.34 or V.22bis3
ITU-T V.22bis, V.23, or Bell 212A
ITU-T V.21
Bell 103
Notes:
1. Supported on Si2457 only.
2. Supported on Si2457 and Si2434 only.
3. Supported on Si2457, Si2434, and Si2415 only.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 15
Data Format
Bit asynchronous Selectable 8, 9, 10, or 11 bits per character, which includes
the start, stop, and parity bits
Compatibility ITU-T V.901, V.342, V.32bis, V.32, V.23, V.22bis, V.22, V.21,
Bell 212A, and Bell 103
Operating Mode
Switched network Two-wire full duplex
Data Modulation
28 to 56 kbps1
2.4 to 33.6 kbps2
14.4 kbps3
12.0 kbps3
9600 bps3
9600 bps3
9600 bps3
7200 bps3
4800 bps3
2400 bps
1200 bps
300 bps
V.90 as specified by ITU-T
V.34 as specified by ITU-T
128-level TCM/2400 Baud ±0.01%
64-level TCM/2400 Baud ±0.01%
32-level TCM/2400 Baud ±0.01%
16-level QAM/2400 Baud ±0.01%
V.29 QAM as specified by ITU-T
16-level TCM/2400 Baud ±0.01%
4-level QAM/2400 Baud ±0.01%
16-level QAM/600 Baud ±0.01%
4-level PSK/600 Baud ±0.01%
FSK 300 Baud ±0.01%
Answer Tone
ITU-T V.32bis, V.32, V.22bis, V.22, and V.21
modes
Bell 212A and 103 modes
2100 Hz ±3 Hz
2225 Hz ±3 Hz
Transmit Carrier
V.901
V.342
ITU-T V.32bis3
ITU-T V.323
ITU-T V.293
ITU-T V.22, V.22bis/Bell 212A
Originate mode
Answer mode
ITU-T V.21
Originate mode
Answer mode
Bell 103
Originate mode
Answer mode
As specified by ITU-T
As specified by ITU-T
1800 Hz ±0.01%
1800 Hz ±0.01%
1700 Hz±1 Hz
1200 Hz ±0.5 Hz
2400 Hz ±1 Hz
Mark (980 Hz ±12 Hz) Space (1180 Hz ±12 Hz)
Mark (1650Hz ±12Hz) Space (1850Hz ±12Hz)
Mark (1270Hz ±12Hz) Space (1070Hz ±12Hz)
Mark (2225Hz ±12Hz) Space (2025Hz ±12Hz)
Output Level
Permissive—Switched network –9 dBm maximum
Table 7. Protocol Characteristics (Continued)
Item Specification
Notes:
1. Supported on Si2457 only.
2. Supported on Si2457 and Si2434 only.
3. Supported on Si2457, Si2434, and Si2415 only.
($9 SILICON LABS
Si2457/34/15/04
16 Rev. 1.3
Receive Carrier
ITU-T V.901
ITU-T V.342
ITU-T V.32bis3
ITU-T V.323
ITU-T V.293
ITU-T V.22, V.22bis/Bell 212A
Originate mode
Answer mode
ITU-T V.21
Originate mode
Answer mode
Bell 103
Originate mode
Answer mode
As specified by ITU-T
As specified by ITU-T
1800 Hz ±7 Hz
1800 Hz ±7 Hz
1700 Hz ±7 Hz
2400 Hz ±7 Hz
1200 Hz ±7 Hz
Mark (980 Hz ±12 Hz) Space (1180 Hz ±12 Hz)
Mark (1650Hz ±12Hz) Space (1850Hz ±12Hz)
Mark (2225Hz ±12Hz) Space (2025Hz ±12Hz)
Mark (1270Hz ±12Hz) Space (1070Hz ±12Hz)
Carrier Detect (level for ITU-T V.22bis, V.22, V.21,
212, 103) in Switched Network Acquisition (–43 dBm)
Release (–48 dBm)
Hysteresis 2 dBm minimum
Note: ITU-T V.901, V.342, V.32/V.32bis3 are echo canceling protocols that use signal quality as criteria for maintaining
connection. They also provide for self-training detection to force disconnect.
DTE Interface EIA/TIA-232-E (ITU-T V.24/V.28/ISO 2110)
Line Equalization Automatic Adaptive
Connection Options Loss of Carrier in ITU-T V.22bis and lower
Phone Types 500 (rotary dial), 2500 (DTMF dial)
Dialing Pulse and Tone
DTMF Output Level Per TIA-968-B
Pulse Dial Ratio Make/Break: 39/61%
Ring Cadence Per T1.401.02-2000
Call Progress Monitor BUSY
CONNECT (rate)
NO ANSWER
NO CARRIER
NO DIALTONE
OK
RING
RINGING
Table 7. Protocol Characteristics (Continued)
Item Specification
Notes:
1. Supported on Si2457 only.
2. Supported on Si2457 and Si2434 only.
3. Supported on Si2457, Si2434, and Si2415 only.
($9 SILIEEIN LABS
Si2457/34/15/04
Rev. 1.3 17
4. Functional Description
Figure 8. Functional Block Diagram
The Si2457/34/15/04 ISOmodem® is a complete
embedded modem chipset with integrated direct access
arrangement (DAA) that provides a programmable line
interface to meet global telephone line requirements.
Available in two small packages, this solution includes a
DSP data pump, modem controller, on-chip RAM and
ROM, codec, DAA, analog output, and 27 MHz clock
input.
The Si2457/34/15/04 accepts standard modem AT
commands and provides connect rates up to 56/33.6/
14.4/2.4 kbps full-duplex over the Public Switched
Telephone Network (PSTN). The Si2457/34/15/04
features a complete set of modem protocols including all
ITU-T standard formats up to V.90.
To provide the most flexibility, the Si2457/34/15/04
ISOmodem system-side device is offered in either a 24-
pin TSSOP or a 16-pin SOIC package. The 16-pin
version is footprint-compatible with the Si2401
ISOmodem and is recommended for most applications.
The 16-pin version does not support the parallel,
EEPROM or voice codec interface. If these features are
required, customers should use the 24-pin version.
The ISOmodem provides numerous additional features
for embedded modem applications. The modem includes
full type I and type II caller ID detection and decoding for
global standards. Call progress monitoring is supported
through standard result codes. The modem is also
programmable to meet global settings. Because the
Si2457/34/15/04 ISOmodem integrates the DAA, analog
features, such as parallel phone detect, overcurrent
detection, and global PTT compliance with a single
design, are included.
This device is ideal for embedded modem applications
due to its small board space, low power consumption,
and global compliance. The Si2457/34/15/04 solution
includes a silicon DAA using Silicon Laboratories’
proprietary third-generation DAA technology. This highly-
integrated DAA can be programmed to meet worldwide
PTT specifications for ac termination, dc termination,
ringer impedance, and ringer threshold. In addition, the
Si2457/34/15/04 has been designed to meet the most
stringent worldwide requirements for out-of-band energy,
billing-tone immunity, surge immunity, and safety
requirements.
The Si2457/34/15/04 allows for rapid integration into
existing modem applications by providing a serial
interface that can directly communicate to either a
microcontroller via a UART interface or a PC via an RS-
232 port. This interface allows for PC evaluation of the
modem immediately upon powerup via the AT
commands using standard terminal software.
4.1. Host Interface
The Si2457/34/15/04 interfaces to the host processor
through either an asynchronous serial interface, a
synchronous Serial Peripheral Interface (SPI), or a
parallel interface. The default is asynchronous serial
communication. Selection of either SPI or parallel
interface is done on power-up with reset strapping.
Please refer to “AN93: ISOmodem® Chipset Family
Designer's Guide” for details.
4.1.1. Asynchronous Serial Interface
The Si2457/34/15/04 supports asynchronous serial
communication with data terminal equipment (DTE) at
rates up to 307.2 kbps with the standard serial UART
format. Upon powerup, the UART baud rate is
automatically detected using the autobaud feature.
4.1.2. Serial Peripheral Interface (SPI)
The serial peripheral interface (SPI) provides a flexible,
full-duplex synchronous serial bus for host processor
and Si2457/34/15/04 ISOmodem communication. When
the Si2457/34/15/04 is powered up with SPI mode
enabled the modem becomes an SPI slave, and the
pins are configured to SS (slave select input, active
low), MOSI (serial data input to modem), MISO (serial
data output from modem) and SCLK (serial data clock
input). Each SPI operation consists of a control-and-
address byte and a data byte.
4.1.3. Parallel Interface (24-Pin Version Only)
The Si2457/34/15/04 can also communicate via a
parallel interface when using the 24-pin version. The
parallel interface is an 8-bit data bus with a single bit
address to memory mapped registers.
UART
Interface
Parallel
Interface
DSP
DAA
Interface
PLL
Clocking
XTI XTO
CLKOUT
C1
To Phone
Line
AOUT
Data Bus
Controller
Si3018/10
RXD
TXD
CTS
RTS
DCD
ESC
RI
CS
WR
RD
A0
D0-D7
Program Bus
EEPROM
Interface
EESD
EECLK
EECS
C2
SPI
Interface
MISO
MOSI
SCLK
INT
RESET
ROM
RAM
SS
($9 SILIEEIN LABS
Si2457/34/15/04
18 Rev. 1.3
4.2. Command Mode
Upon reset, the ISOmodem® is in command mode and
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 12 on page 38 and
enters data mode.
4.3. 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.44, 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.
4.4. 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 for details.
4.5. V.80 Synchronous Access Mode
The Si2457/34/15/04 supports a V.80 synchronous
access mode of operation, which operates with an
asynchronous DTE and a synchronous DCE. See
“AN93: ISOmodem® Chipset Family Designer's Guide”.
4.6. Clocking
The Si2457/34/15/04 contains an on-chip phase-locked
loop (PLL) and clock generator to derive all necessary
internal system clocks from a single clock input. A
32.768 kHz or 4.9152 MHz crystal can be used across
XTALI and XTALO pins to form the master clock
(±100 ppm max, ±25 ppm recommended) for the
ISOmodem. The 32.768 kHz option can provide lower
BOM costs and smaller footprint. Alternatively, a clock
input of 27 MHz, 4.9152 MHz, or 32.768 kHz can be
provided to XTALI if that clock source is available in the
system. A 4.9152 MHz clock input is the default clock
option. Other clock options are selected at power-up
through reset strapping. Refer to AN93 for details.
4.7. Low-Power Modes
The Si2457/34/15/04 provides multiple low power
modes. 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 last DTE activity,
after the transmit FIFO is empty, and after the last data
are received from the remote modem.
Additionally, the Si2457/34/15/04 can be placed in
wake-on-ring-mode using the command, AT&Z. In either
mode, the ISOmodem remains in the sleep state until
one of the following occurs:
A 1-to-0 transition on TXD (UART mode).
A 1-to-0 transition on SS (SPI mode).
A 1-to-0 transition on CS (parallel mode).
An incoming ring is detected.
A parallel telephone is picked up.
Line polarity reversal
The Si2457/34/15/04 may also be placed in a complete
powerdown mode. Once the Si2457/34/15/04
completely powers down, it 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
and MNP2-4 error correction protocols. V.42 (LAPM) is
most commonly used and is enabled by default.
4.10. Wire Mode
Wire mode is used to communicate with standard non-
error correcting modems. When optioned with \N3, the
Si2457/34/15/04 falls back to wire mode if it fails in an
attempt to negotiate a V.42 link with the remote modem.
Error correction and data compression are not active in
wire mode.
($9 SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 19
4.11. Caller ID Operation
The Si2457/34/15/04 supports full type I and type II
caller ID detection and decode. Caller ID is supported
for the US Bellcore, European ETSI, UK, and Japanese
protocols and is enabled via the +VCID, +VCDT, and
+PCW commands.
4.12. Parallel Phone Detection
The ISOmodem® is able to detect when another
telephone, modem, or other device is using the phone
line. This allows the host to avoid interrupting another
phone call when the phone line is already in use and to
intelligently handle an interruption when the ISOmodem
is using the phone line.
4.12.1. On-Hook Line-in-use Detection
When the ISOmodem is sharing the telephone line with
other devices, it is important that it not interrupt a call in
progress. To detect whether another device is using the
shared telephone line, the host can use the ISOmodem
to monitor the TIP-RING dc voltage with the line voltage
sense (LVS) register (U6C, bits 15:8).
The LVS bits have a resolution of 1 V per bit with an
accuracy of approximately ±10%. Bits 0 through 6 of
this 8-bit signed twos complement number indicate the
value of the line voltage, and the sign bit (bit 7) indicates
the polarity of TIP and RING. The ISOmodem can also
monitor the TIP-RING dc voltage using the LVCS
register (U79, bits 4:0). See Figure 9 on page 19. See
also the %Vn commands for automatic line-in-use
detection.
4.12.2. Off-Hook Intrusion Detection
When the ISOmodem is off-hook, an algorithm is
implemented in the ISOmodem to automatically monitor
the TIP-RING loop current via the LVCS register. During
the off-hook state, the LVCS register switches from
representing the TIP-RING voltage to representing the
TIP-RING current. See Figure 10 on page 20. Upon
detecting an intrusion, the ISOmodem alerts the host of
the condition via the INT pin.
Figure 9. Loop Voltage
0 3 6 9 121518212428303336394245475154576063666972 100
0
5
75 78 81 84 87
LVCS
BITS
Loop Voltage (V)
10
15
20
25
30
4/" \+ ($9 SILICON LABS
Si2457/34/15/04
20 Rev. 1.3
Figure 10. Loop Current
0 3 6 9 1215 18 21 24 30 33 36 39 424548 51 54 57 60 63 6669 72 140
75 78 81 84 87 90 93
Loop Current
(mA)
LVCS
BITS
27
Overload
0
5
10
15
20
25
30
CTR21 only
($9 SILIEEIN LABS
Si2457/34/15/04
Rev. 1.3 21
4.13. Overcurrent Detection
The Si2457/34/15/04 includes an overcurrent detection
feature that measures the loop current at a
programmable time after the Si2457/34/15/04 goes off-
hook. This allows the Si2457/34/15/04 to detect if it is
connected to an improper telephone line. The
overcurrent detection feature may be enabled by setting
the OCDM bit (U70, bit 11). OHT (U77, bits 8:0) sets the
delay after off-hook until the loop current is measured.
See “AN93: ISOmodem® Chipset Family Designer's
Guide” for details.
4.14. Global Operation
The Si2457/34/15/04 chipset contains an integrated
silicon direct access arrangement (Silicon DAA) that
provides a programmable line interface to meet
international telephone line interface requirements.
“AN93: Modem Designer’s Guide” gives the DAA
register settings required to meet international PTT
standards.
Additionally, the user-access registers (via the AT:U and
AT:R commands) may be programmed for country-
specific settings, such as dial tone, ring, ringback, and
busy tone. See AN93 for complete details.
4.15. Firmware Upgrades
The Si2457/34/15/04 contains an on-chip program ROM
that includes the firmware required for the features
listed in this data sheet. In addition, the Si2457/34/15/04
contains on-chip program RAM to accommodate minor
changes to the ROM firmware. This allows Silicon Labs
to provide future firmware updates to optimize the
characteristics of new modem designs and those
already deployed in the field. See AN93 for complete
details.
4.16. DTMF Detection / Generation
The Si2457/34/15/04 provides comprehensive DTMF
tone generation and detection. The ISOmodem can
generate single tones or DTMF tones using the +VTS
command. DTMF tones may also be generated during
dialing using the “ATDT” command. DTMF detection is
only available in voice mode (+FCLASS = 8). DTMF
digits are reported from the modem to the host using
<DLE> shielding.
4.17. SMS/MMS Support
Short Message Service (SMS) is a service that allows
text messages to be sent and received from one
telephone to another via an SMS service center.
Multimedia Messaging Service (MMS) extends the core
SMS capability to send messages that include
multimedia content. The Fax ISOmodem provides an
interface that offers a great deal of flexibility in handling
multiple SMS standards. This flexibility is possible
because most of the differences between standards are
handled by the host using the raw data itself. The
Si2457/34/15/04 performs the necessary modulation/
demodulation of the data and provides two options for
message packet structure (Protocol 1 and Protocol 2, as
defined in ETSI ES 201 912). The rest of the data link
layer and transfer layer are defined by the host system.
The content of the message is entirely up to the host
including any checksum or CRC. ETSI ES 201 912
describes two standard data and transfer layers that are
commonly used. SMS typically relies on caller
identification information to determine if the call should
be answered using an SMS device or not.
See “6.4. SMS Support” in AN93 for more information
on how to configure the modem for SMS support.
4.18. Codec Interface (24-Pin Version Only)
In order to support a full range of voice and data
applications, the Si2457/34/15/04 includes an optional
serial interface that connects to an external voice codec
(Si3000). See AN93 for complete details.
4.19. EEPROM Interface
(24-Pin Version Only)
The Si2457/34/15/04 supports an optional serial
peripheral interface (SPI) bus serial EEPROM Mode 3
with a 16-bit (8–64 kbit range) address. Upon powerup,
if a pulldown resistor 10 k is placed between D6 and
GND, the ISOmodem attempts to detect an EEPROM.
The EEPROM is intended first for setting custom
defaults, second for automatically loading firmware
upgrades, and third to allow for user-defined AT
command macros for use in custom AT commands or
country codes. See AN93 for complete details.
4.20. AT Commands
At powerup, the Si2457/34/15/04 is in the AT command
mode. In command mode, the modem monitors the
input (serial or parallel) checking constantly for a valid
command (AT commands are described in Table 8.)
($9 SILICON LABS
Si2457/34/15/04
22 Rev. 1.3
Table 8. Basic AT Command Set (Command Defaults in Bold)
Command Action
$Display AT command mode settings.
AAnswer incoming call
A/ Re-execute last command. This is the only command not preceded by “AT” or followed by a
<CR>.
Dn
Dial
The dial command, followed by 1 or more dial command modifiers, manually dials a phone
number:
Modifier Function
! or & Flash hook switch for FHT (U4F) ms (default: 500 ms)
, or < Pause before continuing for S8 seconds (default:
2 seconds)
; Return to AT command mode
@ Wait for silence.
G
Polarity reversal detect. By placing the “G” character in
the dial string (i.e. ATDTG1), the Si2457/34/15/04 will
monitor the telephone line for polarity reversals. If a
busy tone is detected, the Si2457/34/15/04 will report
“POLARITY REVERSAL” if a polarity reversal was
detected or “NO POLARITY REVERSAL” if a polarity
reversal was not detected. In each case, the result
code is followed by “OK”. If the S7 timeout occurs
before a busy tone is detected, the Si2457/34/15/04 will
report “NO CARRIER”. Polarity reversal monitoring
begins after the last digit is dialed and ends when the
busy tone is detected or S7 timeout occurs.
Note: It is not possible to establish a modem connection
when using this command.
L Redial last number.
PPulse (rotary) dialing—pulse digits: 0, 1, 2, 3, 4, 5, 6, 7,
8, 9
TTone (DTMF) dialing—DTMF digits: *, #, A, B, C, D, 0,
1, 2, 3, 4, 5, 6, 7, 8, 9.
W
Wait for dial tone before continuing for S14 seconds
(default: 12 seconds). Blind dialing modes X0, X1 and
X3 do not affect the W command.
If the DOP bit (U7A, bit 7) is set, the “ATDTW” com-
mand will cause the ISOmodem® to pause dialing and
either report an “OK” if a dialtone is detected or “NO
DIALTONE” if a dial tone is not detected.
En Local DTE echo
E0 Disable
E1 Enable
Hn Hook switch.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 23
H0 Go on-hook (hang up modem).
H1 Go off-hook.
In Identification and checksum.
I0 Display Si2457/34/15/04 revision code.
B: Revision B
C: Revision C, etc.
I1 Display Si2457/34/15/04 firmware revision code (numeric).
I3 Display line-side revision code.
18C = Si3018 revision C
I6
Display the ISOmodem® model number.
“2404” = Si2404
“2415” = Si2415
“2434” = Si2434
“2457” = Si2457
I7 Diagnostic results 1. See “AN93: ISOModem® Chipset Family Designer’s Guide” for details.
I8 Diagnostic results 2. See AN93 for details.
Ln Speaker volume operation
L1 Low speaker volume
L2 Medium speaker volume
L3 High speaker volume
Mn Speaker operation (via AOUT).
M0 Speaker is always off.
M1 Speaker is on while dialing and handshaking; off in data mode.
M2 Speaker is always on.
M3 Speaker is off while dialing, on during handshaking and retraining.
On Return to data mode from Command mode operation.
O0 Return to data mode.
O1 Return to data mode and perform a full retrain (at any speed except 300 bps).
O2 Return to data mode and perform rate renegotiation.
Qn Response mode.
Q0 Enable result codes (see Table 12 on page 38)
Q1 Disable result codes (enable quiet mode).
RInitiate V.23 reversal.
Sn S-register operation (see Table 13 on page 41).
S$ List contents of all S registers.
Sn? Display contents of S-register n.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
($9 SILICON LABS
Si2457/34/15/04
24 Rev. 1.3
Sn=x Set S-register n to value x (where n and x are decimal values).
Vn Result code type (see Table 12 on page 38).
V0 Numeric result codes.
V1 Verbal result codes
Xn Call Progress Monitor (CPM)—This command controls which CPM signals are monitored
and reported to the host from the Si2457/34/15/04. (See Table 12 on page 38.)
X0 Basic results; disable CPM—Blind dial (does not wait for dial tone). CONNECT message
does not include speed.
X1 Extended results; disable CPM—Blind dial. CONNECT message includes speed.
X2 Extended results and detect dial tone only—Add dial tone detection to X1 mode. Does not
blind dial.
X3 Extended results and detect busy only—Add busy tone detection to X1 mode.
X4 Extended results, full CPM—Full CPM enabled, CONNECT message includes speed.
X5 Extended results—Full CPM enabled including ringback detection. Adds ringback detection
to X4 mode.
Yn Long space disconnect—Modem hangs up after 1.5 seconds or more of continuous space
while on-line.
Y0 Disable.
Y1 Enable.
ZHard Reset—This command is functionally equivalent to pulsing the RESET pin low. (See
tAT in Table 6 on page 7.)
:E Read from serial EEPROM.
:I Interrupt Read—This command causes the ISOmodem® to report the lower 8 bits of the
interrupt register I/O Control 0 (U70). The CID, OCD, PPD, and RI bits also are cleared, and
the INT pin (INT bit in parallel mode) is deactivated on this read.
:M Write to serial EEPROM.
:P
Program RAM Write—This command is used to upload firmware supplied by Silicon Labs to
the Si2457/34/15/04. The format for this command is AT:Paaaa,xxxx,yyyy,.... where aaaa is
the first address in hexadecimal and xxxx,yyyy,.... is data in hexadecimal. Only one :P com-
mand is allowed per AT command line. No other commands can be concatenated in the :P
command line. This command is only for use with special files provided by Silicon Laborato-
ries. Do not attempt to use this command for any other purpose.
:R
User-Access Register Read—This command allows the user to read from the user-access
registers (see "6. User-Access Registers (U-Registers)" on page 44). The format is “AT:Raa”,
where:
aa = user-access address in hexadecimal.
The “AT:R” command causes all the U- registers to be displayed.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
\>< mode="" result="" code="" mode="" ,="" .="" siliedn="" labs="">
Si2457/34/15/04
Rev. 1.3 25
:U
User-Access Register Write—This command allows the user to write to the 16-bit user-
access registers. (See page page 44.) The format is “AT:Uaa,xxxx,yyyy,zzzz,...” where
aa = user-access address in hexadecimal.
xxxx = Data in hexadecimal to be written to location aa.
yyyy = Data in hexadecimal to be written to location (aa + 1).
zzzz = Data in hexadecimal to be written to location (aa + 2).
etc.
+DR=X
Data compression reporting.
X Mode
0 Disabled
1 Enabled
If enabled, the intermediate result code is transmitted at the point after error control negotia-
tion. The format of this result code is as follows:
Result code Mode
+DR:NONE Data compression is not in use
+DR:V42B Rec. V.42bis is in use in both directions
+DR:V42B RD Rec. V.42bis is in use in receive direction only
+DR:V42B TD Rec. V.42bis is in use in transmit directions only
+DS Options
+DS = A
+DS = A,B
+DS = A,B,C
+DS = A,B,C,D
Controls V.42bis data compression function.
A Direction
0 No compression
1 Transmit only
2 Receive only
3 Both Directions
B Compression_negotiation
0 Do not disconnect if V.42 is not negotiated.
1 Disconnect is V.42 is not negotiated.
C Maximum dictionary size
512
D Maximum string size
6 to 250 (28 default)
+ES Options
+ES = A
+ES = A,,C
Enable synchronous access mode.
A Specifies the mode of operation when initiating a modem connection.
D Disable synchronous assess mode.
6 Enable synchronous access mode when connection is completed and data state is
entered.
B Specifies fallback mode of operation.
This parameter should not be used.
C Specifies the mode of operation when answer a modem connection.
D Disable synchronous assess mode.
8 Enable synchronous access mode when connection is completed and data state is
entered.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
X Mode X Mode X Mode ($9 SILICON LABS
Si2457/34/15/04
26 Rev. 1.3
+ESA Options
+ESA = A
+ESA = A,B
+ESA = A,B,C
+ESA = A,B,C,E
+ESA = A,B,C,E,F
+ESA = A,B,C,E,F,
G
Synchronous access mode control options
A Specifies action taken if an underrun condition occurs during transparent sub-mode.
0 Modem transmits 8-bit SYN sequences on idle.
B Specifies action taken if an underrun condition occurs after a flag during framed sub-
mode0 Modem transmits 8-bit HDLC flags on idle.
C Specifies action taken if an underrun or overrun condition occurs after a non-flag during
framed sub-mode.
0 Modem transmits abort on underrun in middle of frame.
1 Modem transmits flag on underrun in middle of frame and notifies host of underrun
or overrun.
D Specifies V.34 half duplex operation.
This parameter should not be used.
E Specifies CRC polynomial used while in framed sub-mode.
0 CRC generation checking disable.
1 16-bit CRC generation and checking is performed by the modem.
F Specifies NRZI encoding and decoding.
0 NRZI encoding and decoding disabled.
G Specifies SYN.
255
+FCLASS = X
Class 1 Mode Enable for V.29 fast connect.
XMode
0Off
1 Enables support for Class 1 mode for use in the V.29 fast connect mode.
+FRM = X
Class 1 Receive Carrier for V.29 fast connect.
XMode
2 Transmit V.21 (980 Hz) tone for longer than 100 ms, then send answer tone
(2100/2225 Hz) for 200 ms.
95 V.29 short synchronous.
96 V.29 full synchronous.
+FTM = X
Class 1 Transmit Carrier for V.29 fast connect.
XMode
2 Transmit V.21 (980 Hz) tone.
53 Same as &T4, but transmit V.29 7200 bps. Data pattern set by S40 register. AT +
FCLASS = 0 must be sent to restore the ISOmodem® to normal operation after
test.
54 Same as &T4, but transmit V.29 9600 bps. Data pattern set by S40 register. AT +
FCLASS = 0 must be sent to restore the ISOmodem to normal operation after test.
95 V.29 short synchronous.
96 V.29 full synchronous.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
\>< country="" ,="" .="" siliedn="" labs="">
Si2457/34/15/04
Rev. 1.3 27
+GCI = X
Country settings - Automatically configure all registers for a particular country.
XCountry
0 Japan
9 Australia
AAustria
F Belgium
16 Brazil
1B Bulgaria
20 Canada
26 China
27 Columbia
2E Czech Republic
31 Denmark
35 Ecuador
3C Finland
3D France
42 Germany
46 Greece
50 Hong Kong
51 Hungary
53 India
57 Ireland
58 Israel
59 Italy
61 South Korea
69 Luxembourg
6C Malaysia
73 Mexico
7B Netherlands
7E New Zealand
82 Norway
87 Paraguay
89 Philippines
8A Poland
8B Portugal
9C Singapore
9F South Africa
A0 Spain
A5 Sweden
A6 Switzerland
B8 Russia
B4 United Kingdom
B5 United States
FE Taiwan
Note: U-registers are configured to Silicon Laboratories’ recommended values. The +GCI command
resets the U-registers and the S7 and S6 S-registers to default values before setting country-
specific values. Changes may be made by writing individual registers after sending the AT+GCI
command. Refer to “AN93: ISOModem® Chipset Family Designer’s Guide” for details.
+GCI? List current country code setting (response is: + GCI:<setting>)
+GCI = ? List all possible country code settings.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
\>< mode="" ($9="" silicon="" labs="">
Si2457/34/15/04
28 Rev. 1.3
+IFC Options
+IFC = A
+IFC = A,B
Specifies the flow control to be implemented.
A Specifies the flow control method used by the host to control data from the modem
0None
1 Local XON/OFF flow control. Does not pass XON/XOFF character to the remote
modem.
2 Hardware flow control (RTS)
B Specifies the flow control method used by the modem to control data from the host
0 None
1 Local XON/OFF flow control.
2 Hardware flow control (CTS).
+ITF Options
+ITF = A
+ITF = A,B
+ITF = A,B,C
Transmit flow control threshold.
A Threshold above which the modem will generate a flow off signal
<0 to 511> bytes
B Threshold below which the modem will generate a flow on signal
<0 to 511> bytes
C Polling interval for <EM><BNUM> indicator
0 to 300 in 10 msec units.
+MR = X
Modulation reporting control.
X Mode
0 Disabled
1 Enabled
If enabled, the intermediate result code is transmitted at the point during connect negotiation.
The format of this result code is as follows:
+MCR: <carrier> e.g. +MCR: V32B
+MRR: <rate> e.g. +MRR: 14400
+MS Options
+MS = A
+MS = A,B
+MS = A,B,C
+MS = A,B,C,D
+MS = A,B,C,D,E
+MS = A,B,C,D,E,F
Modulation Selection.
A Preferred modem carrier
V21 ITU-T V.21
V22 ITU-T V.22
V22B ITU-T V.22bis (default for Si2404)
V32 ITU-T V.32
V32B ITU-T V.32bis (default for Si2415)
V34 ITU-T V.34 (default for Si2434)
V90 ITU-T V.90 (default for Si2457)
B Automatic modulation negotiation
0 Disabled
1 Enabled
C,D Min TX rate/Max TX rate are optional numeric values that specify the lowest value
at which the DCE may establish a connection. If unspecified (set to 0), they are
determined by the carrier and automode settings.
E,F Min RX rate/Max RX rate are optional numeric values which specify the highest
value at which the DCE may establish a connection. If unspecified (set to 0), they
are determined by the carrier and automode settings.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
X Mode 7 X Mode X Mode , . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 29
+PCW = X
Controls the action to be taken upon detection of call waiting.
X Mode
0 Toggle RI and collect type II Caller ID if enabled by +VCID.
1 Hang up.
2 Ignore call waiting.
+VCDT = X
Caller ID Type.
XMode
0 After ring only
1 Always on (Recommended Setting)
2UK
3 Japan
+VCID = X
Caller ID Enable.
XMode
0Off
1 On—formatted
2 On—raw data format
+VCIDR? Type II caller ID information — The Si2457/34/15/04 will display “+VCDIR:” followed by raw
caller ID information including checksum.
Table 8. Basic AT Command Set (Command Defaults in Bold) (Continued)
Command Action
($9 SILICON LABS
Si2457/34/15/04
30 Rev. 1.3
4.21. Extended AT Commands
The extended AT commands are supported by the Si2457/34/15/04 and are described in Tables 9 through 11.
Table 9. Extended AT& Command Set (Command Defaults in Bold)
Command Action
&$ Display AT& current settings.
&D0 ESC is not used
&D1 ESC escapes to command mode from data mode if also enabled by HES U70, bit 15.
&D2 ESC assertion during a modem connection causes the modem to go on-hook and return to com-
mand mode.
&D3 ESC assertion causes ATZ command (reset and return OK result code).
&F Restore factory default settings.
&Gn Line connection rate limit—This command sets an upper limit on the line speed that the Si2457/34/
15/04 can connect. Note that the &Hn commands may limit the line speed as well (&Gn not used for
&H0 or &H1). Not all modulations support rates given by &G. Any improper setting will be ignored.
&G3 1200 bps max
&G4 2400 bps max (default for Si2404)
&G5 4.8 kbps max
&G6 7.2 kbps max
&G7 9.6 kbps max
&G8 12 kbps max
&G9 14.4 kbps max (default for Si2415)
&G10 16.8 kbps max
&G11 19.2 kbps max
&G12 21.6 kbps max
&G13 24 kbps max
&G14 26.4 kbps max
&G15 28.8 kbps max
&G16 31.2 kbps max
&G17 33.6 kbps max (default for Si2457 and Si2434)
&Hn Switched network handshake mode—&Hn commands must be on a separate command line from
ATD, ATA, or ATO commands.
&H0 V.90 with automatic fallback (56 kbps to 300 bps) (default for Si2457)
&H1 V.90 only (56 kbps to 28 kbps)
&H2 V.34 with automatic fallback (33.6 kbps to 300 bps) (default for Si2434)
&H3 V.34 only (33.6 kbps to 2400 bps)
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 31
&H4 ITU-T V.32bis with automatic fallback (14.4 kbps to 300 bps) (default for Si2415)
&H5 ITU-T V.32bis only (14.4 kbps to 4800 bps)
&H6 ITU-T V.22bis only (2400 bps or 1200 bps)
&H7 ITU-T V.22 only (1200 bps)
&H8 Bell 212 only (1200 bps)
&H9 Bell 103 only (300 bps)
&H10 ITU-T V.21 only (300 bps)
&H11 V.23 (1200/75 bps)
&Pn Japan pulse dialing
&P0 Configure Si2457/34/15/04 for 10 pulse-per-second pulse dialing. For Japan.
&P1 Configure Si2457/34/15/04 for 20 pulse-per-second pulse dialing. For Japan.
&Tn Test mode
&T0 Cancel test mode (Escape to command mode to issue AT&T0). This command will also report the
number of bit errors encountered on the previous &T4 or &T5 test.
&T2 Initiate ITU-T V.54 (ANALOOP) test. Modulation set by &H AT command. Test loop is through the
DSP (Si2457/34/15/04 device) only. ISOmodem® echoes data from TX pin (Register 0 in parallel
mode) back to RX pin (Register 0 in parallel mode).
&T3 Initiate ITU-T V.54 (ANALOOP) test. Modulation set by &H AT command. Test loop is through the
DSP (Si2457/34/15/04), DAA interface section (Si2457/34/15/04), DAA interface (Si3018), and ana-
log hybrid circuit (Si3018). ISOmodem echoes data from TX pin (Register 0 in parallel mode) back to
RX pin (Register 0 in parallel mode). Phone line termination required as in Figure 1. To test only the
link operation, the hybrid and AFE codec can be removed from the test loop by setting the DL bit
(U62, bit 1).
&T4 Initiate transmit as originating modem with automatic data generation. Modulation, data rate, and
symbol rate are set by &H, &G, and S41. Data pattern is set by the S40 register. Continues until the
ATH command is sent after an escape into command mode. Data is also demodulated as in
ANALOOP, and any bit errors are counted to be displayed after the test using &T0.
&T5 Initiate transmit as answering modem with automatic data generation. Modulation, data rate, and
symbol rate are set by &H, &G, and S41. Data pattern is set by the S40 register. Continues until the
ATH command is sent after an escape into command mode. Data is also demodulated as in
ANALOOP, and any bit errors are counted to be displayed after the test using &T0.
&T6 Compute checksum for firmware-upgradeable section of program memory. If no firmware upgrade is
installed, &T6 returns 0x4474.
&Xn Automatic determination of telephone line type.
&X0 Abort &x1 or &x2 command.
Table 9. Extended AT& Command Set (Command Defaults in Bold) (Continued)
Command Action
($9 SILICON LABS
Si2457/34/15/04
32 Rev. 1.3
&X1 Automatic determination of telephone line type.
Result code: WXYZn
W: 0 = line supports DTMF dialing.
1 = line is pulse dial only.
X: 0 = line supports 20 pps dialing.
1 = line supports 10 pps dialing only.
Y: 0 = extension network present (PBX).
1 = outside line (PSTN) connected directly.
Z: 0 = continuous dialtone.
1 = make-break dialtone.
n: 0–9 (number required for outside line if Y = 0).
Note: The initial number attempted for an outside line is controlled in S51.
&X2 Same as &X1, but Y result (PBX) is not tested.
*Y2A Produce a constant answer tone (ITU-T) and return to command mode. The answer tone continues
until the ATH command is received or the S7 timer expires.
&Z Enter low-power wake-on-ring mode.
Table 9. Extended AT& Command Set (Command Defaults in Bold) (Continued)
Command Action
Lccg Voltage Action , . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 33
Table 10. Extended AT% Command Set (Command Defaults in Bold)
Command Action
%$ Display AT% command settings.
%B Report blacklist. See also S42 register.
%Cn Data compression
%C0 Disable V.42bis and MNP5 data compression
%C1 Enable V.42bis in transmit and receive paths. If MNP is selected (\N2), then %C1 enables
MNP5 in transmit and receive paths.
%C2 Enable V.42bis in transmit path only.
%C3 Enable V.42bis in receive path only.
%On Answer mode.
%O1 Si2457/34/15/04 will auto-answer a call in answer mode.
%O2 Si2457/34/15/04 will auto-answer a call in originate mode.
%Vn Automatic Line Status Detection.
After the %V1 and %V2 commands are issued, the Si2457/34/15/04 will automatically check the
telephone connection for whether or not a line is present. If a line is present, the Si2457/34/15/04
will automatically check if the line is already in use. Finally, the Si2457/34/15/04 will check line status
both before going off-hook and again before dialing. %V1 uses the fixed method, and %V2 uses the
adaptive method. %V0 (default) disables this feature.
%V0 Disable automatic line-in-use detection.
%V1 Automatic Line Status Detection—Fixed Method.
Description: Before going off-hook with the ATD, ATO, or ATA commands, the Si2457/34/15/04 com-
pares the line voltage (via LVCS) to registers NOLN (U83) and LIUS (U84):
Loop Voltage Action
0LVCS NOLN Report “NO LINE” and remain on-hook.
NOLN LVCS LIUS Report “LINE IN USE” and remain on-hook.
LIUS LCVS Go off-hook and establish a modem connection.
Once the call has begun, the off-hook intrusion algorithm (described in "4.12.2. Off-Hook Intrusion
Detection" on page 19) operates normally. In addition, the Si2457/34/15/04 will report “NO LINE” if
the telephone line is completely disconnected. If the HOI bit (U77, bit 11) is set, “LINE IN USE” is
reported upon intrusion.
Lccg Voltage Action ($9 SILICON LABS
Si2457/34/15/04
34 Rev. 1.3
%V2 Automatic Line Status Detection—Adaptive Method.
Description: Before going off-hook with the ATD, ATO, or ATA commands, the Si2457/34/15/04 com-
pares the line voltage (via LVCS) to the NLIU (U85) register:
Loop Voltage Action
0LVCS (0.0625 x NLIU) Report “NO LINE” and remain on-hook.
(0.0625 x NLIU) < LVCS (0.85 x NLIU) Report “LINE IN USE” and remain on-hook.
(0.85 x NLIU) < LCVS Go off-hook and establish a modem connection.
The NLIU register is updated every 1 ms with the minimum non-zero value of LVCS in the last
30 ms. This allows the Si2457/34/15/04 to eliminate errors due to 50/60 Hz interference and also
adapt to relatively slow change in the on-hook dc reference value on the telephone line. This algo-
rithm does not allow any non-zero values for NLIU below 0x0007. The host may also initialize NLIU
prior to issuing the %V2 command. Once the call has begun, the off-hook intrusion algorithm
(described in "4.12.2. Off-Hook Intrusion Detection" on page 19) operates normally. In addition, the
Si2457/34/15/04 will report “NO LINE” if the telephone line is completely disconnected. If the HOI
(U77, bit 11) bit is set, “LINE IN USE” is reported upon intrusion.
Table 10. Extended AT% Command Set (Command Defaults in Bold) (Continued)
Command Action
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 35
Table 11. Extended AT\ Command Set (Command Defaults in Bold)
Command Action
\$ Display AT\ command settings.
\Bn Character length will be automatically set in autobaud mode
\B0 6N1—six data bits, no parity, one stop bit, one start bit, eight bits total (\N0 only)1
\B1 7N1—seven data bits, no parity, one stop bit, one start bit, nine bits total (\N0 only)1
\B2 7P1—seven data bits, parity optioned by \P, one stop bit, one start bit, 10 bits total
\B3 8N1—eight data bits, no parity, one stop bit, one start bit, 10 bits total
\B5 8P1—eight data bits, parity optioned by \P, one stop bit, one start bit, 11 bits total (\N0 only)
\B6 8X1—eight data bits, one escape bit, one stop bit, one start bit, 11 bits total (enables ninth-bit
escape mode)
\Nn Asynchronous protocol
\N0 Wire mode (no error correction, no compression)
\N2 MNP reliable mode. The Si2457/34/15/04 attempts to connect with the MNP protocol. If unsuccess-
ful, the call is dropped.
\N3 V.42 auto-reliable—The Si2457/34/15/04 attempts to connect with the V.42 protocol. If unsuc-
cessful, the MNP protocol is attempted. If unsuccessful, wire mode is attempted.
\N4 V.42 (LAPM) reliable mode (or drop call)—Same as \N3 except that the Si2457/34/15/04 drops the
call instead of connecting in MNP or wire mode.
\N5 V.42 and MNP reliable mode—The Si2457/34/15/04 attempts to connect with V.42. If unsuccessful,
MNP is attempted. If MNP us unsuccessful, the call is dropped.
\Pn Parity type will be automatically set in autobaud mode
\P0 Even
\P1 Space1
\P2 Odd
\P3 Mark1
\Qn Modem-to-DTE flow control
\Q0 Disable all flow control—This may only be used if the DTE speed and the VF speed are guaranteed
to match throughout the call.
\Q2 Use CTS only
Notes:
1. When in autobaud mode, \B0, \B1, and \P1 will not be detected automatically. The combination of \B2 and \P3 will be
detected. This is compatible with seven data bits, no parity, two stop bits. Seven data bits, no parity, one stop bit may be
forced by sending AT\T17\B1.
2. The autobaud feature does not detect this rate.
3. Default is \T9 if a pulldown resistor is connected to the autobaud strap pin; otherwise, the default is \T16.
($9 SILICON LABS
Si2457/34/15/04
36 Rev. 1.3
\Q3 Use RTS/CTS
\Q4 Use XON/XOFF flow control for modem-to-DTE interface. Does not enable modem-to-modem flow
control.
\Tn DTE rate—Change DTE rate. When the Si2457/34/15/04 is configured in autobaud mode (default),
\T0 through \T15 will lock the new baud rate and disable autobaud. When the ISOmodem® is not in
autobaud mode (the autobaud strap pin low on powerup), the result code “OK” is sent at the old DTE
rate. Subsequent commands must be sent at the new rate.
\T0 300 bps
\T1 600 bps
\T2 1200 bps
\T3 2400 bps
\T4 4800 bps
\T5 7200 bps
\T6 9600 bps
\T7 12.0 kbps2
\T8 14.4 kbps
\T9 19.2 kbps3
\T10 38.4 kbps
\T11 57.6 kbps
\T12 115.2 kbps
\T13 230.4 kbps
\T14 245.760 kbps2
\T15 307.200 kbps
\T16 Autobaud on3
\T17 Autobaud off; lock at current baud rate.
Table 11. Extended AT\ Command Set (Command Defaults in Bold) (Continued)
Command Action
Notes:
1. When in autobaud mode, \B0, \B1, and \P1 will not be detected automatically. The combination of \B2 and \P3 will be
detected. This is compatible with seven data bits, no parity, two stop bits. Seven data bits, no parity, one stop bit may be
forced by sending AT\T17\B1.
2. The autobaud feature does not detect this rate.
3. Default is \T9 if a pulldown resistor is connected to the autobaud strap pin; otherwise, the default is \T16.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 37
\U Serial mode—causes a low pulse (25 ms) on RI and DCD. INT to be the inverse of ESC. RTS to be
inverse of CTS.
Parallel mode—causes a low pulse (25 ms) on INT.
This command terminates with a RESET.
\Vn Connect message type
\V0 Report connect message and protocol message
\V2 Report connect message only (exclude protocol message)
\V4 Report connect and protocol message with both upstream and downstream connect rates.
Table 11. Extended AT\ Command Set (Command Defaults in Bold) (Continued)
Command Action
Notes:
1. When in autobaud mode, \B0, \B1, and \P1 will not be detected automatically. The combination of \B2 and \P3 will be
detected. This is compatible with seven data bits, no parity, two stop bits. Seven data bits, no parity, one stop bit may be
forced by sending AT\T17\B1.
2. The autobaud feature does not detect this rate.
3. Default is \T9 if a pulldown resistor is connected to the autobaud strap pin; otherwise, the default is \T16.
($9 SILICON LABS
Si2457/34/15/04
38 Rev. 1.3
Table 12. Result Codes
Numeric Meaning Verbal Response X0 X1 X2 X3 X4 X5
0 Command was successful OK X X X X X X
1 Link established at 300 bps
or higher CONNECT XXXXXX
2 Incoming ring detected RING X X X X X X
3 Link dropped NO CARRIER X X X X X X
4 Command failed ERROR X X X X X X
5 Link establish at 1200 CONNECT 1200 X X X X X
6 Dial tone not present NO DIALTONE X X X
7 Line busy BUSY X X X
8 Remote not answering NO ANSWER X X X X X X
9 Ringback detected RINGING X
10 Link established at 2400 CONNECT 2400 X X X X X
11 Link established at 4800 CONNECT 48001XXXXX
12 Link established at 9600 CONNECT 96001XXXXX
14 Link established at 19200 CONNECT 192001XXXXX
15 Link established at 7200 CONNECT 72001XXXXX
16 Link established at 12000 CONNECT 120001XXXXX
17 Link established at 14400 CONNECT 144001XXXXX
18 Link established at 16800 CONNECT 168002XXXXX
19 Link established at 21600 CONNECT 216002XXXXX
20 Link established at 24000 CONNECT 240002XXXXX
21 Link established at 26400 CONNECT 264002XXXXX
22 Link established at 28800 CONNECT 288002XXXXX
23 Link established at 31200 CONNECT 312002XXXXX
24 Link established at 33600 CONNECT 336002XXXXX
30 Caller ID mark detected CIDM X X X X X X
31 Hookswitch flash detected FLASH X X X X X X
32 UK CID State Tone Alert
Signal detected STAS XXXXXX
33 Overcurrent condition X2XXXXXX
40 Blacklist is full BLACKLIST FULL (enabled
via S42 register) XXXXXX
41 Attempted number is black-
listed. BLACKLISTED (enabled via
S42 register) XXXXXX
42 No phone line present NO LINE (enabled via %Vn
commands) XXXXXX
Notes:
1. This message is only supported on the Si2457, Si2434, and Si2415.
2. This message is only supported on the Si2457 and Si2434.
3. X is the only verbal response code that does not follow the <CR><LF>Result Code<CR><LF> standard. There is no
leading <CR><LF>.
4. This message is only supported on the Si2457.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 39
43 Telephone line is in use LINE IN USE (enabled via
%Vn commands) XXXXXX
44 A polarity reversal was
detected POLARITY REVERSAL
(enabled via G modifier) XXXXXX
45 A polarity reversal was NOT
detected NO POLARITY REVERSAL
(enabled via G modifier) XXXXXX
52 Link established at 56000 CONNECT 560004XXXXX
60 Link established at 32000 CONNECT 320004XXXXX
61 Link established at 48000 CONNECT 480004XXXXX
63 Link established at 28000 CONNECT 280004XXXXX
64 Link established at 29333 CONNECT 293334XXXXX
65 Link established at 30666 CONNECT 306664XXXXX
66 Link established at 33333 CONNECT 333334XXXXX
67 Link established at 34666 CONNECT 346664XXXXX
68 Link established at 36000 CONNECT 360004XXXXX
69 Link established at 37333 CONNECT 373334XXXXX
70 No protocol PROTOCOL: NONE Set with \V0 command.
75 Link established at 75 CONNECT 75 X X X X X
77 V.42 protocol PROTOCOL: V42 Set with \V0 command.
79 V.42bis protocol PROTOCOL: V42bis Set with \V0 command.
80 MNP2 protocol PROTOCOL:
ALTERNATE, + CLASS 2 Set with \V command.
81 MNP3 protocol PROTOCOL:
ALTERNATE, + CLASS 3 Set with \V command.
82 MNP4 protocol PROTOCOL:
ALTERNATE, + CLASS 4 Set with \V command.
83 MNP5 protocol PROTOCOL:
ALTERNATE, + CLASS 5 XXXXX
90 Link established at 38666 CONNECT 386664XXXXX
91 Link established at 40000 CONNECT 400004XXXXX
92 Link established at 41333 CONNECT 413334XXXXX
93 Link established at 42666 CONNECT 426664XXXXX
94 Link established at 44000 CONNECT 440004XXXXX
95 Link established at 45333 CONNECT 453334XXXXX
96 Link established at 46666 CONNECT 466664XXXXX
97 Link established at 49333 CONNECT 493334XXXXX
98 Link established at 50666 CONNECT 506664XXXXX
Table 12. Result Codes (Continued)
Numeric Meaning Verbal Response X0 X1 X2 X3 X4 X5
Notes:
1. This message is only supported on the Si2457, Si2434, and Si2415.
2. This message is only supported on the Si2457 and Si2434.
3. X is the only verbal response code that does not follow the <CR><LF>Result Code<CR><LF> standard. There is no
leading <CR><LF>.
4. This message is only supported on the Si2457.
($9 SILICON LABS
Si2457/34/15/04
40 Rev. 1.3
99 Link established at 52000 CONNECT 520004XXXXX
100 Link established at 53333 CONNECT 533333XXXXX
101 Link established at 54666 CONNECT 546663XXXXX
102 DTMF dial attempted on a
pulse dial only line UN–OBTAINABLE NUMBER X X X X X X
Table 12. Result Codes (Continued)
Numeric Meaning Verbal Response X0 X1 X2 X3 X4 X5
Notes:
1. This message is only supported on the Si2457, Si2434, and Si2415.
2. This message is only supported on the Si2457 and Si2434.
3. X is the only verbal response code that does not follow the <CR><LF>Result Code<CR><LF> standard. There is no
leading <CR><LF>.
4. This message is only supported on the Si2457.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 41
5. S-Registers
The S command allows reading (Sn?) or writing (Sn = x) the S-registers. The S-registers store values for functions
that typically are rarely changed, such as timers or counters, and the ASCII values of control characters, such as
carriage return. Table 13 summarizes the S-register set.
Table 13. S-Register Description
Definition
S-Register
(Decimal)
Function Default
(Decimal) Range Units
0 Automatic answer—Number of rings the Si2457/34/15/
04 must detect before answering a call. 0 disables auto
answer.
0 0–255 Rings
1 Ring counter. 0 0–255 Rings
2 ESC code character. 43 (+) 0–255 ASCII
3 Carriage return character. 13 (CR) 0–255 ASCII
4 Linefeed character. 10 (LF) 0–255 ASCII
5 Backspace character. 08 (BS) 0–255 ASCII
6 Dial tone wait timer—Number of seconds the Si2457/
34/15/04 waits before blind dialing. Only applicable if
blind dialing is enabled (X0, X1, X3).
02 0–255 seconds
7 Carrier wait timer—Number of seconds the Si2457/34/
15/04 waits for carrier before timing out. This register
also sets the number of seconds the modem waits for
ringback when originating a call before hanging up.
This register also sets the number of seconds the
answer tone will continue while using the AT*Y2A
command.
80 0–255 seconds
8 Dial pause timer for , and < dial command modifiers. 02 0–255 seconds
9 Carrier presence timer—Time after a loss of carrier
that a carrier must be detected before reactivating
DCD. S9 is referred to as “carrier loss debounce time.”
06 1–255 0.1 second
10 Carrier loss timer—Time the carrier must be lost before
the Si2457/34/15/04 disconnects. Setting 255 disables
disconnect entirely. If S10 is less than S9, even a
momentary loss of carrier causes a disconnect.
14 1–255 0.1 second
12 Escape code guard timer—Minimum guard time
required before and after “+++” for the Si2457/34/15/
04 to recognize a valid escape sequence.
50 1–255 0.02 second
14 Wait for dial tone delay value (in relation to the W dial
modifier). Starts when “W” is executed in the dial
string.
12 0–255 seconds
Symbol Rate Allowable Dala Rates ($9 SILICON LABS
Si2457/34/15/04
42 Rev. 1.3
24 Sleep Inactivity Time—Sets the time that the modem
operates in normal power mode with no activity on the
serial port, parallel port, or telephone line before enter-
ing low-power sleep mode. This feature is disabled if
the timer is set to 0.
0 0–255 seconds
30 Disconnect Activity Timer—Sets the length of time that
the modem stays online before disconnecting with no
activity on the serial port, parallel port, or telephone
line (Ring, hookswitch flash, or caller ID). This feature
is disabled if set to 0.
0 0–255 minutes
38 Hang Up Delay Time—Maximum delay between
receipt of ATH0 command and hang up. If time out
occurs before all data can be sent, the NO CARRIER
(3) result code is sent (operates in V.42 mode only).
“OK” response is sent if all data is transmitted before
timeout. S38 = 255 disables timeout and modem dis-
connects only if data is successfully sent or carrier is
lost.
20 0–255 seconds
40 Data Pattern—Data pattern generated during &T4 and
&T5 transmit tests.
0 = All spaces (0s)
1 = All marks (1s)
2 = Random data
002
41 V.34 symbol rate - Symbol rate for V.34 when using the
&T4 and &T5 commands.
0 = 2400 symbols/second
1 = 2743 symbols/second
2 = 2800 symbols/second
3 = 3000 symbols/second
4 = 3200 symbols/second
5 = 3429 symbols/second
A valid combination of symbol rate (S41) and data rate
(&G) must be selected.
Symbol Rate Allowable Data Rates
2400 2400–21600
2743 4800–26400
2800 4800–26400
3000 4800–28800
3200 4800–31200
3429 4800–33600
005
Table 13. S-Register Description (Continued)
Definition
S-Register
(Decimal)
Function Default
(Decimal) Range Units
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 43
42 Blacklisting—The Si2457/34/15/04 will not dial the
same number more than two times in three minutes.
An attempt to dial a third time within three minutes will
result in a “BLACKLISTED” result code. If the blacklist
memory is full, any dial to a new number will result in a
“BLACKLIST FULL” result code. Numbers are added
to the blacklist only if the modem connection fails. The
%B command will list the numbers on the blacklists.
0 = disabled
1 = enabled
0 (disabled) 0–1
43 Dial Attempts to Blacklist.
When blacklisting is enabled with S42, this value con-
trols the number of dial attempts that will result in a
number being blacklisted.
404
44 Blacklist Timer.
Period during which blacklisting is active. 180 0–255 seconds
50 Minimum on-hook time—Modem will remain on-hook
for S50 seconds. Any attempt to go off-hook will be
delayed until this timer expires.
3 0–255 seconds
51 Number to start checking for an outside line on a PBX.
See &X command for details. 109
Table 13. S-Register Description (Continued)
Definition
S-Register
(Decimal)
Function Default
(Decimal) Range Units
($9 SILIEEIN LABS
Si2457/34/15/04
44 Rev. 1.3
6. User-Access Registers
(U-Registers)
U-Registers are 16-bit registers written by the AT:Uaa
command and read by the AT:R (read all U-Registers)
or AT:Raa (read U-Register aa) commands (see the AT
command list in Table 11 on page 35). Many aspects of
the modem’s and DAA’s behavior can be enabled/
disabled, configured, monitored, and/or modified
through U-Registers; however, most of them will not be
needed in normal use.
There are two types of U-Registers. The first represents
a single 16-bit term, such as a filter coefficient,
threshold, delay, or other quantity. These registers can
be read from or written to as a single 16-bit value. The
second type of U-Register is bit-mapped. Bit-mapped
registers are written and/or read in hexadecimal, but
each bit or combination of bits in the register represents
an independent value or status information. These
individual bits are used to enable or disable features
and indicate states.
Some U-Registers are reserved and not available to the
user. Therefore, there are gaps in the available U-
Register address map. Additionally, some bits within
available U-Registers are reserved. Any attempt to write
a non-zero value to a reserved U-Register or bit may
cause unpredictable modem operation.
With over 100 U-Registers, the Si2457/34/15/04 offers
an unprecedented level of programmability for a
controller-based modem. A detailed list of these
registers and their use is beyond the scope of this data
sheet. Refer to “AN93: ISOmodem® Chipset Family
Designer’s Guide” for details.
Ijljljljljljljlj , . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 45
7. Pin Descriptions: Si2457/34/15/04 (16-Pin Option)
Pin # Pin Name Description
1CLKIN/XTALIXTALI—Crystal Oscillator Pin.
Provides support for parallel resonant AT cut crystals. A 4.9152 MHz or 32.768 kHz crystal
or a 32.768 kHz or 4.9152 or 27 MHz clock on XTALI is required.
2XTALOXTALO—Crystal Oscillator Pin.
Serves as the output of the crystal amplifier.
3RI
Ring Indicator.
The RI on (active low) indicates the presence of an ON segment of a ring signal on the tele-
phone line.
4V
DSupply Voltage.
Provides the 3.3 V supply voltage to the Si2457/34/15/04.
5 MISO/RXD Master In Slave Out/Receive Data.
Serial data output from modem in SPI mode.
Data output to DTE RXD pin in UART mode.
6MOSI/TXDMaster Out Slave In/Transmit Data.
Serial data input to modem in SPI mode.
Data input from DTE TXD pin in UART mode.
7SCLK/CTS
Serial Data Clock/Clear to Send.
Signals that the Si2457/34/15/04 is ready to receive more digital data on the TXD pin.
Serial data clock input in SPI mode.
8 RESET Reset Input.
An active low input that is used to reset all control registers to a defined, initialized
state.
9C2AIsolation Capacitor 2A.
Connects to one side of the isolation capacitor C2.
10 C1A Isolation Capacitor 1A.
Connects to one side of the isolation capacitor C1.
11 INT Interrupt Output.
Active low interrupt output.
CLKIN/XTALI
2
3
4
5
6
7
89
10
11
12
13
14
15
16
XTALO
RI
VD
MISO/RXD
MOSI/TXD
SCLK/CTS
RESET C2A
C1A
INT
GND
VA
ESC
DCD
SS/RTS
1
Si2457/34/15/04
(16-Pin Option)
($9 SILICON LABS
Si2457/34/15/04
46 Rev. 1.3
12 GND Ground.
Connects to the system digital ground.
13 VARegulator Voltage Reference.
Connects to an external capacitor and serves as the reference for the internal
voltage regulator.
14 ESC Escape.
A positive edge on this pin causes the modem to go from online (connected) mode to
the offline (command) mode.
15 DCD Carrier Detect.
Active low carrier detect.
16 SS/RTS SPI Slave Select/Request to Send.
Active low slave select in SPI mode.
Active low request to send input used for flow control in UART mode.
Pin # Pin Name Description
7 13311313131: KKKKKKKEKKKK SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 47
8. Pin Descriptions: Si2457/34/15/04 (24-Pin Option)
Pin # Pin Name Description
1CLKIN/XTALIClock Input/Crystal Oscillator Pin.
Provides support for parallel resonant AT cut crystals. A 4.9152 MHz or
32.768 kHz crystal or a 32.768 kHz or 4.9152 or 27 MHz clock on XTALI is
required.
2XTALOCrystal Oscillator Pin.
Serves as the output of the crystal amplifier.
3 CLKOUT/EECS/
A0 Clock Output/EEPROM Chip Select/Address Bit 0.
Clock output in serial mode. Active low read/write enable for SPI EEPROM in
serial mode when pin 4 is pulled low during powerup. Address Enable in parallel
mode.
4 FSYNC/D6 Frame Sync/Data Bit.
Frame Sync output to codec in serial mode. Bidirectional parallel bus data bit 6 in
parallel mode.
5, 21 VD3.3 Digital Supply Voltage.
Provides the 3.3 V supply voltage to the Si2457/34/15/04.
6, 20 GND Ground.
Connects to the system digital ground.
7,19 VDA, VDB Regulator Voltage Reference.
Connects to an external capacitor and serves as the reference for the internal
voltage regulator.
8SS/RTS/D7 SPI Slave Select/Request to Send/Data Bit.
Active low slave select in SPI mode.
Active low request to send input used for flow control in UART mode. Bidirec-
tional parallel bus data bit 7 in parallel mode.
1
2
3
4
5
6
7
8
9
10
11
12 13
14
15
16
17
18
19
20
21
22
23
24
Si2457/34/15/04
(24-Pin Option)
CLKIN/XTALI
XTALO
CLKOUT/EECS/A0
FSYNC/D6
VD3.3
GND
VDA
SS/RTS/D7
MISO/RXD/RD
MOSI/TXD/WR
SCLK/CTS/CS
RESET
AOUT/INT
RI/D1
SDI/EESD/D2
VDB
VD3.3
ESC/D3
DCD/D4
GND
SDO/EECLK/D5
INT/DO
C1A
C2A
($9 SILICON LABS
Si2457/34/15/04
48 Rev. 1.3
9 MISO/RXD/RD Master In Slave Out/Receive Data/Read Enable.
Serial data output from modem in SPI mode. Data output to DTE RXD pin in
UART mode. Active low read enable pin in parallel mode.
10 MOSI/TXD/WR Master Out Slave In/Transmit Data/Write Enable.
Serial data input to modem in SPI mode. Data input from DTE TXD pin in serial
mode. Active low write enable pin in parallel mode.
11 SCLK/CTS/CS Serial Data Clock/Clear to Send/Chip Select.
Serial data clock input in SPI mode. Signals that the Si2457/34/15/04 is ready to
receive more digital data on the TXD pin in data mode. Active low chip select in
parallel mode.
12 RESET Reset Input.
An active low input that is used to reset all control registers to a defined initialized
state.
13 C2A Isolation Capacitor 2A.
Connects to one side of the isolation capacitor, C2.
14 C1A Isolation Capacitor 1A.
Connects to one side of the isolation capacitor, C1.
15 AOUT/INT Analog Output/Interrupt Output.
Analog output in serial mode. Active low interrupt output in parallel mode.
16 INT/D0 Interrupt Output/Data Bit.
Active low interrupt output in serial mode. Bidirectional parallel bus data bit 0 in
parallel mode.
17 RI/D1 Ring Indicator/Data Bit.
The RI on (active low) indicates the presence of an ON segment of a ring signal
on the telephone line. Bidirectional parallel bus data bit 1 in parallel mode.
18 SDI/EESD/D2 Serial Data In/EEPROM Serial Data Input/Output/Data Bit.
Serial Data In (to codec) output in serial mode. Bidirectional Input/Output to SPI
EEPROM in serial mode when pin 4 is pulled low during power up. Bidirectional
parallel bus data bit 2 in parallel mode.
22 ESC/D3 Escape/Data Bit.
Hardware escape in serial mode. Bidirectional parallel bus data bit 3 in parallel
mode.
23 DCD/D4 Carrier Detect/Data Bit.
Active low carrier detect in serial mode. Bidirectional parallel bus data bit 4 in par-
allel mode.
24 SDO/EECLK/D5 Serial Data Out/EEPROM Clock/Data Bit 5.
Serial Data Out (from codec) input in serial mode. Clock output for SPI EEPROM
in serial mode when pin 4 is pulled low during power up. Bidirectional parallel bus
data bit 5 in parallel mode.
Pin # Pin Name Description
_H:H:H:H:H:H:H:H_ EEEEEEEE SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 49
9. Pin Descriptions: Si3018/10
Table 14. Si3018/10 Pin Descriptions
Pin # Pin Name Description
1QETransistor Emitter.
Connects to the emitter of Q3.
2DCTDC Termination.
Provides dc termination to the telephone network.
3RX Receive Input.
Serves as the receive side input from the telephone network.
4IB
Internal Bias.
Provides a bias voltage to the device.
5C1BIsolation Capacitor 1B.
Connects to one side of isolation capacitor C1 and communicates with the system side.
6C2BIsolation Capacitor 2B.
Connects to one side of isolation capacitor C2 and communicates with the system side.
7VREGVoltage Regulator.
Connects to an external capacitor to provide bypassing for an internal power supply.
8RNG1Ring 1.
Connects through a resistor to the RING lead of the telephone line. Provides the ring and
caller ID signals to the Si2457/34/15/04.
9RNG2Ring 2.
Connects through a resistor to the TIP lead of the telephone line. Provides the ring and
caller ID signals to the Si2457/34/15/04.
10 VREG2 Voltage Regulator 2.
Connects to an external capacitor to provide bypassing for an internal power supply.
11 SC SC Connection.
Enables external transistor network. Should be tied through a 0 resistor to IGND.
12 QE2 Transistor Emitter 2.
Connects to the emitter of Q4.
13 QB Transistor Base.
Connects to the base of transistor Q4.
14 DCT3 DC Termination 3.
Provides the dc termination to the telephone network.
15 IGND Isolated Ground.
Connects to ground on the line-side interface.
16 DCT2 DC Termination 2.
Provides dc termination to the telephone network.
QE
2
3
4
5
6
7
89
10
11
12
13
14
15
16
DCT
RX
IB
C1B
C2B
VREG
RNG1 RNG2
VREG2
SC
QE2
QB
DCT3
IGND
DCT2
1
Si3018/10
($9 SILICON LABS
Si2457/34/15/04
50 Rev. 1.3
10. Ordering Guide
Chipset Max Speed System-Side
Package System-Side* Line-Side* Temp Range
Si2457 56 kbps 24-pin TSSOP Si2457-D-FT Si3018-F-FS 0 to 70 °C
Si2457 56 kbps 16-pin SOIC Si2457-D-FS Si3018-F-FS 0 to 70 °C
Si2434 33.6 kbps 24-pin TSSOP Si2434-D-FT Si3018-F-FS 0 to 70 °C
Si2434 33.6 kbps 16-pin SOIC Si2434-D-FS Si3018-F-FS 0 to 70 °C
Si2415 14.4 kbps 24-pin TSSOP Si2415-D-FT Si3018-F-FS 0 to 70 °C
Si2415 14.4 kbps 16-pin SOIC Si2415-D-FS Si3018-F-FS 0 to 70 °C
Si2404 2400 bps 24-pin TSSOP Si2404-D-FT Si3010-F-FS 0 to 70 °C
Si2404 2400 bps 16-pin SOIC Si2404-D-FS Si3010-F-FS 0 to 70 °C
Si2457 56 kbps 24-pin TSSOP Si2457-D-GT Si3018-F-GS –40 to +85 °C
Si2434 33.6 kbps 24-pin TSSOP Si2434-D-GT Si3018-F-GS –40 to +85 °C
Si2415 14.4 kbps 24-pin TSSOP Si2415-D-GT Si3018-F-GS –40 to +85 °C
Si2404 2400 bps 24-pin TSSOP Si2404-D-GT Si3018-F-GS –40 to +85 °C
*Note: Add an “R” at the end of the device to denote tape and reel option.
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 51
11. Package Markings (Top Markings)
Codes for the Si2457-D-FT, Si2457-D-FS, Si2434-D-FT, Si2434-D-FS, Si2415-D-FT, Si2415-D-FS, Si2404-D-FT,
Si2404-D-FS, Si3018-F-FS, and Si3010-F-FS top marks are as follows:
YY = Current Year
WW = Work Week
R = Die Revision
TTTTT = Trace Code
XX = Assembly Country Code
11.1. Si2457-D-FT Top Marking
Figure 11. Si2457-D-FT Top Marking
11.2. Si2457-D-FS Top Marking
Figure 12. Si2457-D-FS Top Marking
11.3. Si2434-D-FT Top Marking
Figure 13. Si2434-D-FT Top Marking
SILICON LABS
Si2457/34/15/04
52 Rev. 1.3
11.4. Si2434-D-FS Top Marking
Figure 14. Si2434-D-FS Top Marking
11.5. Si2415-D-FT Top Marking
Figure 15. Si2415-D-FT Top Marking
11.6. Si2415-D-FS Top Marking
Figure 16. Si2415-D-FS Top Marking
11.7. Si2404-D-FT Top Marking
Figure 17. Si2404-D-FT Top Marking
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 53
11.8. Si2404-D-FS Top Marking
Figure 18. Si2404-D-FS Top Marking
11.9. Si3010-F-FS Top Marking
Figure 19. Si3010-F-FS Top Marking
11.10. Si3018-F-FS Top Marking
Figure 20. Si3018-F-FS Top Marking
‘WD 7 ¥ HHHHHH‘HHHHHH TCFE \ E] ,,,i,,+,,i,,, [:1 7 , \ “riff . 1 1w HHHHHH‘HHHHHHi, L ‘i JL ‘ [in ($9 SILICON LABS
Si2457/34/15/04
54 Rev. 1.3
12. Package Outline: 24-Pin TSSOP
Figure 21 illustrates the package details for the Si2457/34/15/04 24-pin packaging option. Table 15 lists the values
for the dimensions shown in the illustration.
Figure 21. 24-Pin Thin Shrink Small Outline Package (TSSOP)
Table 15. Package Diagram Dimensions
Dimension Min Nom Max
A—1.20
A1 0.05 — 0.15
A2 0.80 1.00 1.05
b 0.19 — 0.30
c 0.09 — 0.20
D 7.70 7.80 7.90
E 6.40 BSC
E1 4.30 4.40 4.50
e 0.65 BSC
L 0.45 0.60 0.75
L2 0.25 BSC
θ0° — 8°
aaa 0.10
bbb 0.10
ccc 0.20
Notes:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
3. This drawing conforms to the JEDEC Solid State Outline MO-153,
Variation AD.
4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020
specification for Small Body Components.
9 rigggga JESSE: L L J SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 55
13. 24-Pin TSSOP Land Pattern
Figure 22 illustrates the recommended land pattern for the Si2457/34/15/04 24-Pin TSSOP. Table 16 lists the
values for the dimensions shown in the illustration.
Figure 22. 24-Pin TSSOP Land Pattern Diagram
Table 16. 24-Pin TSSOP PCB Land Pattern
Dimension Feature (mm)
C1 Pad Column Spacing 5.80
E Pad Row Pitch 0.65
X1 Pad Width 0.45
Y1 Pad Length 1.40
Notes:
1. This Land Pattern Design is based on IPC-7351 specifications for Density Level B
(Median Land Protrusion).
2. All feature sizes shown are at Maximum Material Condition (MMC) and a card
fabrication tolerance of 0.05 mm is assumed.
_—m—. , my I HHHHiHHHH ($9 SILICON LABS
Si2457/34/15/04
56 Rev. 1.3
14. Package Outline: 16-Pin SOIC
Figure 23 illustrates the package details for the Si2457/34/15/04 16-pin packaging option. Table 17 lists the values
for the dimensions shown in the illustration.
Figure 23. 16-Pin Small Outline Integrated Circuit (SOIC) Package
, . SILIEDN LABS
Si2457/34/15/04
Rev. 1.3 57
Table 17. Package Diagram Dimensions
Dimension Min Max
A — 1.75
A1 0.10 0.25
A2 1.25 —
b 0.31 0.51
c 0.17 0.25
D 9.90 BSC
E 6.00 BSC
E1 3.90 BSC
e 1.27 BSC
L 0.40 1.27
L2 0.25 BSC
h 0.25 0.50
θ0° 8°
aaa 0.10
bbb 0.20
ccc 0.10
ddd 0.25
Notes:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
3. This drawing conforms to the JEDEC Solid State Outline MS-012,
Variation AC.
4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020
specification for Small Body Components.
rEEEEEEEEM finggssgmm SILICON LABS
Si2457/34/15/04
58 Rev. 1.3
15. 16-Pin SOIC Land Pattern
Figure 24 illustrates the recommended land pattern for the Si2457/34/15/04 16-Pin SOIC. Table 18 lists the values
for the dimensions shown in the illustration.
Figure 24. 16-Pin SOIC Land Pattern Diagram
Table 18. 16-Pin SOIC Land Pattern Dimensions
Dimension Feature (mm)
C1 Pad Column Spacing 5.40
E Pad Row Pitch 1.27
X1 Pad Width 0.60
Y1 Pad Length 1.55
Notes:
General
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ASME Y14.5M-1994.
3. This Land Pattern Design is based on the IPC-7351 guidelines.
4. All dimensions shown are at Maximum Material Condition (MMC). Least Material
Condition (LMC) is calculated based on a Fabrication Allowance of 0.05 mm.
Solder Mask Design
5. All metal pads are to be non-solder mask defined (NSMD). Clearance between the
solder mask and the metal pad is to be 60 µm minimum, all the way around the pad.
Stencil Design
6. A stainless steel, laser-cut and electro-polished stencil with trapezoidal walls should
be used to assure good solder paste release.
7. The stencil thickness should be 0.125 mm (5 mils).
8. The ratio of stencil aperture to land pad size should be 1:1.
Card Assembly
9. A No-Clean, Type-3 solder paste is recommended.
10. The recommended card reflow profile is per the JEDEC/IPC J-STD-020
specification for Small Body Components.
($9 SILIEEIN LABS
Si2457/34/15/04
Rev. 1.3 59
DOCUMENT CHANGE LIST
Revision 0.91 to Revision 1.0
Added Figure 5 typical schematic with 16-pin
system-side option.
Updated Table 3 to include 16-pin system-side
parameters.
Updated default register setting in Table 16.
Added Si2404 information.
Added 16-pin system-side option.
Updated "4. Functional Description" on page 17.
Added "7. Pin Descriptions: Si2457/34/15/04 (16-Pin
Option)" on page 45.
Updated "10. Ordering Guide" on page 50 to reflect
part revision.
Revision 1.0 to Revision 1.1
Added industrial temperature range devices.
Revision 1.1 to Revision 1.2
Added Revision D additions and changes:
32.768 kHz oscillator option
SPI interface
Moved U-Register details to AN93.
Added package markings.
Revision 1.2 to Revision 1.3
Removed 5 V interface logic support.
Lowered digital input voltage VIND max from 5.3 V to
(VD + 0.3) V.
Lowered total supply current (typ) from 26 to 17 mA.
Added total supply current, wake-on-ring
specification.
SILICON LABS
Smart.
Connected.
Energy-Friendly.
Products
www.silabs.com/products Quality
www.silabs.com/quality Support and Community
community.silabs.com
http://www.silabs.com
Silicon Laboratories Inc.
400 West Cesar Chavez
Austin, TX 78701
USA
Disclaimer
Silicon Labs intends to provide customers with the latest, accurate, and in-depth documentation of all peripherals and modules available for system and software implementers using or
intending to use the Silicon Labs products. Characterization data, available modules and peripherals, memory sizes and memory addresses refer to each specific device, and "Typical"
parameters provided can and do vary in different applications. Application examples described herein are for illustrative purposes only. Silicon Labs reserves the right to make changes without
further notice to the product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. Without prior
notification, Silicon Labs may update product firmware during the manufacturing process for security or reliability reasons. Such changes will not alter the specifications or the performance
of the product. Silicon Labs shall have no liability for the consequences of use of the information supplied in this document. This document does not imply or expressly grant any license to
design or fabricate any integrated circuits. The products are not designed or authorized to be used within any FDA Class III devices, applications for which FDA premarket approval is required
or Life Support Systems without the specific written consent of Silicon Labs. A "Life Support System" is any product or system intended to support or sustain life and/or health, which, if it fails,
can be reasonably expected to result in significant personal injury or death. Silicon Labs products are not designed or authorized for military applications. Silicon Labs products shall under no
circumstances be used in weapons of mass destruction including (but not limited to) nuclear, biological or chemical weapons, or missiles capable of delivering such weapons. Silicon Labs
disclaims all express and implied warranties and shall not be responsible or liable for any injuries or damages related to use of a Silicon Labs product in such unauthorized applications.
Trademark Information
Silicon Laboratories Inc.® , Silicon Laboratories®, Silicon Labs®, SiLabs® and the Silicon Labs logo®, Bluegiga®, Bluegiga Logo®, ClockBuilder®, CMEMS®, DSPLL®, EFM®,
EFM32®, EFR, Ember®, Energy Micro, Energy Micro logo and combinations thereof, "the world’s most energy friendly microcontrollers", Ember®, EZLink®, EZRadio®, EZRadioPRO®,
Gecko®, Gecko OS, Gecko OS Studio, ISOmodem®, Precision32®, ProSLIC®, Simplicity Studio®, SiPHY®, Telegesis, the Telegesis Logo®, USBXpress® , Zentri, the Zentri logo and Zentri
DMS, Z-Wave®, and others are trademarks or registered trademarks of Silicon Labs. ARM, CORTEX, Cortex-M3 and THUMB are trademarks or registered trademarks of ARM Holdings.
Keil is a registered trademark of ARM Limited. Wi-Fi is a registered trademark of the Wi-Fi Alliance. All other products or brand names mentioned herein are trademarks of their respective
holders.

Products related to this Datasheet

IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 216
Unit Price: 1769
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 188
Unit Price: 1901
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 143
Unit Price: 1877
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 118
Unit Price: 1615
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 111
Unit Price: 1852
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 106
Unit Price: 2215
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 64
Unit Price: 1852
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 62
Unit Price: 1720
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 53
Unit Price: 2284
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 48
Unit Price: 1595
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 47
Unit Price: 2722
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 40
Unit Price: 1936
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1877
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 6064.04839
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 1492.35516
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1281.57066
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 1421.91935
IC ISOMODEM SYST-SIDE DAA 16SOIC
Available Quantity: 0
Unit Price: 1051.81548
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 4992.25806
IC ISOMODEM SYST-SIDE DAA 16SOIC
Available Quantity: 0
Unit Price: 948.53075
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 5373.74194
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 4478.67742
BOARD EVAL SI2457 + SI3018 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL SI2415 + SI3018 24PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL SI2457 + SI3018 24PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL SI2415 + SI3018 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL SI2404 + SI3010 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL SI2404 + SI3008 24PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL SI2404 + SI3010 24PIN
Available Quantity: 0
Unit Price: 17565
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1281.5707
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 0
Unit Price: 1818.72581
IC ISOMODEM SYST-SIDE DAA 16SOIC
Available Quantity: 0
Unit Price: 1051.8154
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 1087.6488
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 2259.604
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 1051.8156
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1087.6488
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 0
Unit Price: 1304.7568
IC ISOMODEM SYST-SIDE DAA 16SOIC
Available Quantity: 0
Unit Price: 948.5309
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 1981.7184
IC ISOMODE SYST-SIDE DAA 24TSSOP
Available Quantity: 0
Unit Price: 2375.5212
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 948.5308
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1159.3156
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 0
Unit Price: 1391.1788
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 1247.8451
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 2659.7528
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 1247.8452
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1281.5708
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 0
Unit Price: 1538.728
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 1492.3553
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1264.7079
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 2924.9412
IC ISOMODEM SYSTEM-SIDE 16SOIC
Available Quantity: 0
Unit Price: 1492.3552
IC ISOMODEM SYSTEM-SIDE 24TSSOP
Available Quantity: 0
Unit Price: 1264.708
IC ISOMODEM GLOBAL DAA 24TSSOP
Available Quantity: 0
Unit Price: 1833.8264
BOARD EVAL ISOMODEM 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL ISOMODEM 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL ISOMODEM 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL ISOMODEM 16PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL ISOMODEM 24PIN
Available Quantity: 0
Unit Price: 17565
BOARD EVAL ISOMODEM 24PIN
Available Quantity: 0
Unit Price: 0