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| rev. 1.1 3/06 copyright ? 2016 by silicon laborato ries SI2401FS10-EVB SI2401FS10-EVB e valuation b oard f or the si2401 with a uart i nterface description the SI2401FS10-EVB evaluation board provides the system designer an easy way of evaluating the si2401 isomodem ? . the si2401fs10- evb consists of a motherboard with a power supply, an rs-232 and usb interface, other ease-of-use features, and a complete removable modem module on a daughter card. (a functional block diagram of the SI2401FS10-EVB is shown below.) the si2401 isomodem is a complete controller-based modem ch ipset integrating silicon labs? third-generation, globally-programmable direct access arrangement (daa). available as two 16-pin small outline (soic) packages, the si2401 isomodem eliminates the need for a separate dsp data pump, modem controller, memories, codec, isolation transformer, relays, opto-isolators, and a 2- to 4-wire hybrid. the si2401 is ideal for embedded modem applications due to its small board area, controller- based architecture, low power consumption, and global compliance. the si2401fs1 0-evb provides an rj-11 jack for interfacing to the phone line and a db9 or usb connector for interfacing the SI2401FS10-EVB to a pc or data terminal serial port. this allows the si2401 isomodem to operate as a serial modem for straightforward evaluation. to evaluate the si2401 isomodem in an embedded system, the daughter card can be used independently or with the motherboard. a direct access header (jp3) is available on the motherboard to bypass the rs-232 transceivers and connect the si2401 isomodem directly to a target system. power is supplied through a screw terminal (j3) or a standard 2 mm power jack (j4). an onboard rectifier, filter, and voltage regulator allow the power input to be 7.5?13 v ac or dc (either polarity). alternatively, power can be supplied through the usb interface (whether the usb or an rs232 interface is used). the si2401fs10- evb can drive an external sp eaker for call monitoring, or a piezoelectric speaker can be mounted directly on the board in the space provided. features the SI2401FS10-EVB includes the following: ? dual rj-11 connection to phone line ? rs-232 and usb interface to pc ? audio connector for call monitoring ? direct access to si2401 for embedded application evaluation ? easy power connection to common 7.5?13.5 v power supplies or usb port ? 9 v ac adaptor ? simple installation and operation functional block diagram rectifier filter 7.5?13.5 v dc or peak ac rs-232 transceivers uart db9 interface selection jumpers si2401 push button reset reset xtali xtalo si3010 interface circuit rj-11 phone line audio amplifier aout audio out direct access hdr daughter board boundary voltage regulator 3.3 v 5 v power-on reset 9 v dc at 300 ma ac adaptor usb connector usb i/f
SI2401FS10-EVB 2 rev. 1.1 1. introduction notable differences between the si2401 and other isomodem products are highlighted in the bulleted list below. for complete details and specifications, refer to the current si2401 data sheet. unique si2401 features: ? many at commands execute when entered without SI2401FS10-EVB rev. 1.1 3 2.3. jumper settings check all jumper sett ings on the SI2401FS10-EVB befo re applying power. figure 1 shows the standard factory jumper settings. these setti ngs configure the si2401fs10 -evb for rs-232 serial opera tion. any standard terminal program configured to communicate through a pc com port can be used to communicate with the si2401fs10- evb. to connect the modem directly into an embedde d system with lvcmos/ttl le vels, install jp8 to disable both the rs-232 and usb interfaces. connection to the embedded system can be made to jp-3. place a jumper on jp13 to enable the onboard speaker, ls1. figure 1. standard factory jumper settings?rs-232 interface (outlined in gray) figure 2. standard factory jumper settings?usb interface (outlined in gray) SI2401FS10-EVB 4 rev. 1.1 2.4. power requirements the SI2401FS10-EVB has an onboard diode bridge, filter capacitor, and voltage regulator. power can be supplied from any source capable of providing 7.5?13 v dc or 7.5?13 v peak ac and at least 100 ma. (additional current may be required if a speaker is connected for monitoring call progress tones.) power may be applied to the SI2401FS10-EVB thro ugh the scre w terminals (j3) or the 2 mm power jack (j4). the onboard full-wave rectifier and filter ensure that the correct polarity is applied to the si 2401fs10-evb. daughter card power is supplied through voltage regulator u2 and is factory- set at 3.3 v. power is also supplied by the usb cable and can be used regardless of whether the modem is configured for the usb, rs-232, or direct interface mode. daughter card current can be measured by connecting an ammeter between jp7 pins 1 and 2. these pins must always be connected. failure to connect pins 1 and 2 of jp7 through either a jumper or a low-impedance ammeter may result in damage to the SI2401FS10-EVB. 2.5. terminal an d line connections the si2401 can be tested as a standard serial data modem by connec ting the si2401 fs10-evb to a personal computer or other data terminal equipment (dte), phone line, and power. connect a pc, rs-232, or usb interface to t he SI2401FS10-EVB with the appropriate cable. the rs-232 transceivers on the evb can communicate with the dte at rates of up to 1 mbps. any standard terminal program, such as hyperterminal or procomm, running on a pc can communicate with the SI2401FS10-EVB. configure the terminal emulation program to 2400 bps, 8 data bits, no parity, one stop bit, and hardware flow control. also, be sure to disable linefeeds with carriage returns. connect the rj-11 jack on the SI2401FS10-EVB to an analog phone line or telephone line simulator, such as a teltone tls 5. 2.6. making connections with the terminal program properly configured and running, apply po wer to the SI2401FS10-EVB. type ?at SI2401FS10-EVB rev. 1.1 5 3.1.1. voltage regulator/power supply the input voltage to either j3 or j4 must be between 7.5 and 13.5 v dc or 7.5 and 13.5 v peak ac. the motherboard includes a diode bridge (d1?d4) to guard against a polarity reversal of the dc voltage or to rectify an ac voltage. the power source must be capable of continuously supplying at least 100 ma. c50 serves as a filter cap for an ac input. the voltage regulator, u1, provides 5 v for the motherboard and the input for voltage regulator u2, which outputs 3.3 v for use on the motherboard and to power the daughter card. si24xxdc power consumption can be measured by placing a meter between pins 1 and 2 of jp7. the connection between jp7 pins 1 and 2 must be made at all times when power is applied to the evaluation board either through a jumper block or a low-impedance meter to avoid damage to the daughter card. power is supplied to u2 through d5 from the usb. 3.1.2. reset circuitry the si2401 requires a reset pulse to remain low for at least 5.0 ms after the power supply has stabilized during the powerup sequence or for at least 5.0 ms during a power-on reset, then go high with a rise time <100 ns. most production si2401 modem chipset applications require that reset be controlled by the host processor. certain si2401 operation modes, including powerdown, require a hardware reset to recover. the SI2401FS10-EVB contains two reset options, an automatic power-on reset device, u3 (ds1818) (default), and a manual reset switch (s1) to permit resetting of the chip without removing power. regardless of the mechanism, a reset causes all modem settings to revert to factory default values. see figure 6 on page 11 and figure 8 on page 13 for the reset circuit schematic. 3.1.3. ds1818 the ds1818 is a small, low- cost device that monitors the voltage on v d and an external reset pushbutton. if v d drops below 3.0 v, the ds1818 provides a 220 ms active-low reset pulse. on power-up, the ds1818 also outputs an active low reset pulse for 220 ms after v d reaches 90% of the nominal 3.3 v value. the ds1818 outputs a 220 ms reset pulse any time the power supply voltage exceeds the 3.3 v 10% window. 3.1.4. manual reset the manual reset switch (s1) performs a power-on reset. this resets the si2401 to factory defaults without turning off power. if s1 is used in conjunction with u6, pressing s1 activates the reset monitor in the ds1818 and produces a 220 ms active low reset pulse. 3.1.5. interface selection the serial interface of the SI2401FS10-EVB can be connected to a computer terminal, embedded system, or any other data terminal equipment (dte) via a standard rs-232 interface, usb interface, or direct ttl serial interface. the si2401 can be tested as a standard data modem by connecting the si2401f s10-evb to a personal computer or other dte, power supply, and a phone line. a pc can communicate with the SI2401FS10-EVB using a standard terminal program, such as hyperterm or procomm. jumper settings determine how the SI2401FS10-EVB is connected to the dte. table 3 lists the interface controlled by each motherboard jumper. see figure 7 on page 12 and figure 17 on page 22. 3.1.6. rs-232 interface this operation mode uses the standard factory jumper settings illustrated in figure 1 on page 3. the maxim max3237 transceiver interfaces directly with the ttl levels available at the serial interface of the si2401 and, using internal charge pumps, makes these signals compatible with the rs-232 standard. the rs-232 transceiver on the si2401 fs10-evb can communicate at rates between 300 bps and 1 mbps. this simplifies the connection to pcs and other data terminal equipment (dte). the signals available on the SI2401FS10-EVB serial interface (db9 connector) are listed in table 4. table 3. interface selection jumpers jumper function jp1 daughter card phone line connector. jp2 daughter card digital connector. jp3 direct access header. jp4 not used. jp5 usb enable (rs-232 disable). jp6 options. jp7 3.3 v power for daughter card. jp8 disable both rs-232 and usb. jp9 not used. jp10 not used. jp11 not used. jp12 enable 27 mhz clock option. SI2401FS10-EVB 6 rev. 1.1 3.1.7. usb interface the usb cable connects to j5 on the motherboard and provides both data and power. installing a jumper on jp5 enables the usb interface and disables the rs-232 interface. the usb interface is provided by u5. a usb driver for this chip is av ailable for most pc and mac operating systems on the cd. 3.1.8. direct access interface the motherboard supplies power through j3, j4, or usb, power-on reset, and an rj-11 jack for the modem. the direct access interface (jp3) is used to connect the motherboard to an embedded system. jp3 provides access to all si2401 signals available on the daughter card. it is necessary to install a jumper on jp8 to disable both the rs-232 and usb interface and prevent signal contention. leave the jumper between jp7 pins 1 and 2. figure 3 illustrates the jump er settings required for the direct access mode using the motherboard. figure 3. jumper settings for direct access interface table 4. db9 pin connections j1 name j1 symbol j1 pin si2401 pin si2401 name carrier detect cd 1 1 received data rxd 2 5 rxd transmit data txd 3 6 txd data terminal ready dtr 4 2 14 esc/gpio3 signal ground sg 5 12 gnd data set ready dsr 6 note 3 ready to send rts 7 nc clear to send cts 8 7 cts ring indicator rd 9 1 nc notes: 1. jp6 + jp5 jumper option. 2. jp6 jumper option. 3. dsr connected to dtr at j1. SI2401FS10-EVB rev. 1.1 7 3.1.9. audio output audio output is provided from the si2401 on the pin, aout. this signal allows the user to monitor call progress signals, such as dial tone, dtmf dialing, ring, busy signals, and modem negotiation. control of this signal is provided by at commands and register settings described in the introduction. the aout signal can be connected to an amplifier, such as the lm386 (the default stuffing option on the SI2401FS10-EVB), for high-quality output. aout ca n also be connected to a summing amplifier or mult iplexer in an embedded application as part of an integrated audio system. 3.1.10. amplifier (lm386) the audio amplifier circuit consists of u10 (lm386), c20, r3, r4, c21, c22, c23, r5, c24, and an optional loudspeaker, ls1. the lm386 has an internally-set voltage gain of 20. r3 and r4 provide a voltage divider to reduce the aout signal to prevent overdriving the lm386. c20 provides dc blocking for the input signal and forms a high-pass filter with r3+r4, while r4 and c21 form a low-pass filter. these four components limit the bandwidth of the aout signal. c22 provides high- frequency power supply bypassing for the lm386 and should be connected to a hard ground and located very close to the amplifier?s power supply and ground pins. c23 and r5 form a compensation circuit to prevent oscillation of the high-curr ent pnp transistor in the lm386 output stage on negative signal peaks. these oscillations can occur betw een 2?5 mhz and can pose a radiation compliance problem if c23 and r5 are omitted. c24 provides dc bl ocking for the output of the lm386, which is biased at approximately 2.5 v (v cc /2), and forms a high-pass filter with the impedance of the loudspeaker (ls1). the output from the lm386 amplifier circuit is available on the rca jack, j2 (not installed). install jumper jp13 to enable the onboard speaker, ls1. 3.2. modem module operation the si2401fs10- evb daughter card is a complete modem solution perfectly suited for use in an embedded system. the daughter card requires a 3.3 v supply capable of providing at least 35 ma and communicates with the system via lvcmos/ttl-compatible digital signals on jp1. the rj-11 jack (tip and ring) is connected via jp2. be sure to provide the proper power-on reset pulse to the daughter card if it is used in the standalone mode. 3.2.1. reset requirements the si2401 isomodem daughter card must be properly reset at powerup. the reset pin (pin 8) of the si2401, (jp1, pin 13), must be held low for at least 5.0 ms after power is applied and stabilized and returned high with a rise time less than 100 ns to ensure that the device is properly reset. 3.2.2. crystal requirements clock accuracy and stability are important in modem applications. to ensure reliable communication between modems, the clock must remain within 100 ppm of the design value over the life of the modem. the crystal selected for use in a modem application must have a frequency tolerance of less than 100 ppm for the combination of initial frequency tolerance, drift over the normal operating temperature range, and five-year ageing. other considerations, such as production variations in pc board capacitance and the tolerance of loading capacitors, must also be taken into account. 3.2.3. protection the SI2401FS10-EVB meets or exceeds all fcc and international ptt requirements and recommendations for high-voltage surge and isolation testing without any modification. the protection/i solation circuitry includes c1, c2, c8, c9, fb1, fb2, and rv1. the pcb layout is also a key ?component? in the protection circuitry. the SI2401FS10-EVB provi des isolation to 3 kv. contact silicon laboratories for info rmation about designing to higher levels of isolation. 4. design the following pages contai n the schematics, bill of materials, and layout for the si2401 including the daughter card and motherboard. SI2401FS10-EVB 8 rev. 1.1 rxclk dcdb esc aout rxd resetb xtali xtalo xtali xtalo rxd rtsb resetb dcdb rxd txclk rtsb intb esc rib eesd aout clkout clkout txd txd ctsb ctsb txd ctsb vda vda txclk rxclk rxclk eesd rib aout txclk intb esc resetb dcdb dcdb intb rib aout eesd vdd vdd vdd c1a c2a c1a c2a tip ring c1a c2a overlap the 16-pin soic and 24-pin tssop txd gpio5/rib/txclk - rxd ctsb si2401 gpio3/esc - gpio2/dcdb resetb - gpio1/eofr/rxclk - "si24x x2g-dc rev. 1.0 isomodem tm" - these components for internal silabs use only. gpio4/intb/aout jp1 function pin 1 3 5 7 9 11 13 2 4 8 10 12 14 16 these components for internal silabs use only. r20 r23 c41 r18 1.3 k c52 c51 r19 0 jp2 c40 u3 clkin/xtali 1 xtalo 2 clkout/a0/eecs 3 alt_ri/d6/txclk 4 vd3.3 5 gnd 6 vda 7 rts/d7 8 vdb 19 gnd 20 vd 3.3 21 c2a 13 c1a 14 esc/d3 22 dcd/d4 23 eeclk/d5/rxclk 24 cts/cs/ale 11 rxd/rd 9 txd/wr 10 reset 12 ri/d1 17 eeio/d2 18 aout/int 15 int/d0 16 c50 c55 y1 1 2 r21 c53 u1 si2401 clkin/xtali 1 xtalo 2 gpio5/ri/txclk 3 vd3.3 4 rxd 5 txd 6 cts 7 reset 8 c2a 9 c1a 10 gpio4/int/aout 11 gnd 12 va 13 gpio3/esc 14 gpio2/cd 15 gpio1/eofr/rxclk 16 + c54 r22 jp1 header 8x2 1 3 5 7 9 11 13 15 2 4 6 8 10 12 14 16 c56 fb5 fi 4. si2401 sati SI2401FS10-EVB rev. 1.1 9 c1a c2a ring tip r30, r31, r32, r33, c30 and c31 are an optional cid p opulation no ground plane in daa section bias ring detec t/cid hookswitch dc term r4 q2 q3 r13 r16 r11 r32 c31 c9 c7 r5 r1 r30 c10 r2 r10 q4 r12 fb2 c5 r8 + c4 rv1 q5 c2 u2 si3010 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 c6 c30 - + d1 z1 c1 c8 q1 r3 r15 c3 fb1 r6 r7 r33 r31 r9 figure 5. si3010 daa schematic SI2401FS10-EVB 10 rev. 1.1 5. bill of materials: si2401 daughter card value rating tolerance foot print dielectric manufacturer number manufacturer 1 2 c2,c1 33 pf y2 20% 1808 x7r ga342d1xgf330jy02l murata 2 1 c3 10 nf 250 v 20% 0805 x7r c0805x7r251-103mne venkel 3 1 c4 1.0 uf 50 v 20% size a al electrol y tic nace1r0m50v nic components 4 3 c5,c6,c50 0.1 uf 16 v 20% 0603 x7r c0603x7r160-104mne venkel 5 1 c7 2.7 nf 50 v 20% 0603 x7r c0603x7r500-272mne venkel 6 2 c9,c8 680 pf y3 10% 1808 x7r ga342qr7gd681kw01l murata 7 1 c10 0.01 uf 16 v 20% 0603 x7r c0603x7r160-103mne venkel 8 2 c41,c40 33 pf 16 v 5% 0603 npo c0603npo160-330jne venkel 9 1 c51 0.22 uf 16 v 20% 0603 x7r c0603x7r160-104mne venkel 10 1 c54 1.0 uf 10 v 10% case a tant ta010tcm105-kal venkel 11 1 d1 hd04 400 v mini-dip hd04-t diodes, inc. 12 2 fb2,fb1 ferrite bead 0603 blm18ag601s murata 13 1 fb5 ferrite bead 0603 blm18ag601s murata 14 1 jp1 header 8x2 2x8 surface mount header, .1 space tsm-108-01-t-dv samtec 15 1 jp2 4x1 header_0 conn1x4-100- smt 68000-403 berg 16 2 q3,q1 npn 300 v sot-23 mmbta42lt1 on semi 17 1 q2 pnp 300 v sot-23 mmbta92lt1 on semi 18 2 q4,q5 npn 80 v sot-23 mmbta06lt1 on semi 19 1 rv1 sidacto r 275 v 100 a sod 6 p3100sb teccor 20 1 r1 1.07 k 1/2 w 1% 1210 cr1210-2w-1071ft venkel 21 1 r2 150 1/16 w 5% 0402 cr0402-16w-150jt venkel 22 1 r3 3.65 k 1/2 w 1% 1210 cr1210-2w-3651ft venkel 23 1 r4 2.49 k 1/2 w 1% 1210 cr1210-2w-2491ft venkel 24 2 r5,r6 100 k 1/16 w 5% 0402 cr0402-16w-104jt venkel 25 2 r8,r7 20 m 1/8 w 5% 0805 cr0805-8w-206jt venkel 26 1 r9 1 m 1/16 w 1% 0402 cr0402-16w-1004ft venkel 27 1 r10 536 1/4 w 1% 1206 cr1206-4w-5360ft venkel 28 1 r11 73.2 1/2 w 1% 1210 cr1210-2w-73r2ft venkel 29 4 r12,r13,r15,r16 0 1/16 w 1% 0603 cr0603-16w-000f venkel 30 1 u1 si2401 16pin soic si2401-ks silicon laboratories 31 1 u2 si3010 16pin soic si3010-ks silicon laboratories 32 1 y1 4.9152mhz 20pf load, 150 esr 50 ppm ats-sm 559-foxsd049-20 cts reeves 33 1 z1 43 v 1/2 w sod-123 mmsz43t1 onsemi non-installed components 34 2 c31,c30 120pf 250 v 10% 0805 x7r c0805x7r251-121kne venkel 35 2 c55,c56 0.1 uf 10 v 20% c0603 x7r c0603c124k kemet 36 1 r18 1.3 k 1/16 w 5% rc0603 cr0603-16w-132jt venkel 37 5 r19,r20,r21,r22,r23 0 1/16w 5% rc0603 cr0603-16w-000j venkel 38 2 r32,r30 15m 1/8 w 5% 0805 cr0805-8w-156jt venkel 39 2 r33,r31 5.1m 1/8 w 5% 0805 cr0805-8w-515jt venkel 40 1 c52 0.1 uf 16 v 20% 0603 x7r c0603x7r160-104mne venkel 41 1 c53 0.22 uf 16 v 20% 0603 x7r c0603x7r160-104mne venkel 42 1 u3 si24xx 24pin tssop silicon laboratories item quantit y reference SI2401FS10-EVB rev. 1.1 11 txclk_h resetb dcd_h aout_h dcd_h eesd_h txclk_h resetb resetb eesd_h aout_h vd +3.3v +3.3v vcc vcc vd +3.3v usb rs-232 "7-12v ac or dc" "reset" jp7 for measuring current to modem (i.e. vd goes to modem only) "mux off" "usb" info info ctrl ctrl info gpio4 or aout int or aout nc or gpio4 table on silkscreen for jp6 rs-232 si2400 only si2456/57 si2401 c n r o 2 o i p g o i e e r o d c d 2 o i p g r o c n d c ri gpio3 or nc ri or txclk nc or gpio5 c n r o 3 o i p g x r o c s e r t d rts clkout or nc rts or rxclk nc or gpio1 dsr function "rxd" "txd" "ctsb" "resetb" "rtsb" "dcdb" "int" "aout" "rib" "esc" place white dot silkscreen near pin 1 "clkout" "txclk" "rxclk" "eesd" gpio1 or gpio3 "si2401: 1-2, 5-6, 7-8, 11-12, 14-15" "si2400: 2-3, 4-5, 8-9, 11-12, 13-14" "si24xx: 1-2, 4-5, 7-8, 10-11, 13-14" "si24xx alt: 1-2, 5-6, 7-8, 11-12, 14-15" "jp6: recommended settings" place white dot silkscreen near pin 1 right a ngle connector on board edge si24xx reset options "autobaud" "eeprom" "27mhz clk" "ring" "tip" "pcm" "eeprom" "si2401 27mhz clk" si2401 reset options jp7 jp5 r9 0 b4 uart mux txd_t rts_t dtr_t txd_u rts_u dtr_u rxd_m cts_m dsr_m cd_m ri_m rxd_t cts_t dsr_t cd_t ri_t rxd_u cts_u dsr_u cd_u ri_u txd_m dtr_m rts_m oe s jp11 r6 0 r11 10k jp3 header 8x2 1 3 5 7 9 11 13 15 2 4 6 8 10 12 14 16 r1 0 ni jp13 jp6 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 r2 ls1 speaker b1 rs-232 rxd_t cts_t rts_t dtr_t dsr_t cd_t ri_t txd_r dtr_r dsr_r rxd_r rd_r cd_r cts_r txd_t rts_r c32 j3 power connector 1 2 j5 usb type b 1 2 3 4 5 r7 0 b2 usb rxd_u cts_u dsr_u cd_u ri_u txd_u rts_r dtr_u usb- usb+ r12 10k tp7 r8 1.3k j4 2.1 mm power jack 1 2 b5 daughter card socket rxd_h cts_h reset_h ri_h dcd_h aout_h ring tip txd_h esc_h rts_h clkout_h int_h eesd_h txclk_h rxclk_h eesd_h eecs_h eeclk_h r10 10k s1 sw pushbutton b6 speaker aout speaker j1 db9-rs232_1 cd(o) 1 rxd(o) 2 txd(i) 3 dtr(i) 4 sg 5 dsr(o) 6 rts(i) 7 cts(o) 8 rd(o) 9 m2 11 m1 10 j2 rca jack ni r27 0 jp4 header 5x2 1 2 3 4 5 6 7 8 9 10 r28 10k jp9 jp8 u9 cs 1 sdo 2 sdi 5 hold 7 sclk 6 wp 3 vcc 8 tp8 b3 powerblock v1 v2 usb_+5 reset rj11 1 2 3 4 5 6 7 8 9 10 11 12 jp10 jp12 igure 6. motherboard top-leel schematic SI2401FS10-EVB 12 rev. 1.1 reset_h ri_h dcd_h aout_h ring tip txd_h clkout_h int_h eesd_h txclk_h rxclk_h esc_h rxd_h cts_h rts_h eecs_h eeclk_h vd vd place white dot silk screen near pin 1 tip and ring minimum 20 mils wide and as far as possible from ground. connec tors for isomodem module. txd gpio3 rxd nc cts nc reset gnd nc vd gpio4 gpio5 nc nc si2401 gpio2 gpio1 txd/wr esc/d3 rxd/rd eesd/d2 cts/cs ri/d1 reset gnd int/d0 vd aout/int alt_rib/txclk/d6 rts/d7 clkout/a0/eecs si24xx dcd/d4 eeclk/d5/rxclk txd gpio1 rxd gpio2 cts gpio3 reset gnd gpio4 vd aout 15 16 13 14 11 12 9 10 7 8 6 nc nc clkout si2400 1 nc 3 4 5 net names correspond to si24 xx. see table for si2400 equivalents 2 table not on silkscreen nc jp1/3 r17 10k jp2 jp1 socket 8x2 1 3 5 7 9 11 13 15 2 4 6 8 10 12 14 16 r26 1.3k + c3 1.0 uf c4 470 pf fb2 + c1 1.0 uf c2 470 pf fiure 7. dauhter card interface schematic SI2401FS10-EVB rev. 1.1 13 v1 v2 usb_+5 reset vcc vd +3.3v usb_vcc optional "gnd" "gnd" stando ffs in each corner of board. "+5v" "+3.3v" "gnd" + c6 470 uf 1 2 fb1 tp16 tp1 u3 ds1818 vcc 2 gnd 3 rst 1 c5 10 nf d4 c10 10 uf tp2 d1 c7 0.1 uf c9 0.1 uf tp6 c11 470 pf d3 u1 7805 in 1 out 3 gnd 2 r14 196k tp4 u2 tps77601dr gnd 1 en 2 in(1) 3 in(2) 4 reset/pg 8 fb/nc 7 out(1) 6 out(2) 5 tp18 tp3 c8 10 uf r13 1.6 r16 110k r15 0 d2 d5 bat54c tp17 tp5 fiure 8. power supply schematic SI2401FS10-EVB 14 rev. 1.1 rxd_t cts_t dsr_t cd_t ri_t txd_t rts_t dtr_t rxd_r cts_r cd_r rd_r dsr_r dtr_r rts_r txd_r vcc vcc c18 + c15 1.0 uf c17 + c12 1.0 uf d12 mmbz15vdc r33 10k c14 0.1 uf d13 mmbz15vdc c13 470 pf d11 mmbz15vdc d8 mmbz15vdc d9 mmbz15vdc d7 mmbz15vdc u4 max3237 c2+ 1 c2- 3 c1+ 28 c1- 25 v+ 27 v- 4 t1in 24 t2in 23 t3in 22 t4in 19 t5in 17 r1outb 16 r1out 21 r2out 20 r3out 18 en 13 gnd 2 t1out 5 t2out 6 t3out 7 t4out 10 t5out 12 vcc 26 r1in 8 r2in 9 r3in 11 mbaud 15 shdn 14 d6 mmbz15vdc r30 10k r29 10k c19 r32 10k ni c16 fb3 tp11 d10 mmbz15vdc tp10 r31 10k ni fiure 9. rs-232 interface schematic SI2401FS10-EVB rev. 1.1 15 figure 10. audio amplifier schematic figure 11. uart mux schematic speaker aout vcc c21 820 pf r3 47 k r4 3 k + c24 100 uf 1 2 r5 10 c22 0.1 uf c23 0.1 uf c20 0.1 uf + - u10 lm386m-1 3 2 5 6 1 4 8 7 txd_t rts_t dtr_t txd_u rts_u dtr_u o\e\ s dsr_m rxd_m cd_m ri_m cts_m rxd_t cts_t dsr_t cd_t ri_t rxd_u cts_u dsr_u cd_u ri_u dtr_m rts_m txd_m vcc "cts_t" "rxd_t" "rxd_u" "cts_u" tp13 tp14 tp15 u8 74cbt3257/so 1b1 2 2b1 5 3b1 11 4b1 14 1a 4 2a 7 3a 9 4a 12 1b2 3 2b2 6 3b2 10 4b2 13 oe 15 s 1 r19 10k u7 74cbt3257/so 1b1 2 2b1 5 3b1 11 4b1 14 1a 4 2a 7 3a 9 4a 12 1b2 3 2b2 6 3b2 10 4b2 13 oe 15 s 1 tp12 r18 10k SI2401FS10-EVB 16 rev. 1.1 figure 12. usb interface schematic txd_u rts_r dtr_u usb- usb+ rxd_u cts_u dsr_u cd_u ri_u usb_vcc u11 gms05f 5 4 1 2 3 tp19 + c29 1.0 uf c31 r20 4.7 k u5 cp2101 /02 regin 7 vdd 6 gnd 3 vbus 8 d- 5 d+ 4 cts 23 rts 24 rxd 25 txd 26 dsr 27 dtr 28 dcd 1 ri 2 suspend 11 suspend 12 rst 9 SI2401FS10-EVB rev. 1.1 17 6. bill of materials: si24xx motherboard value rating tolerance foot print diel ectric manufacturer number manufacturer 1 5 c1,c3,c12,c15,c29 1.0 uf 10 v 10% 3216_eiaa tant ta010tcm105-kal venkel 2 4 c2,c4,c11,c13 470 pf 25v 5% cc0805 x7r c0805c471j5gactu tti 3 1 c5 10 nf 16 v 10% cc0603 x7r c0603x7r160-103kne venkel 4 1 c6 470 uf 25 v 20% c5x10mm-rad electrolytic uvx1e471mpa nic components 5 2 c7,c9 0.1 uf 25 v 10% cc0805 x7r c0805x7r250-104kne venkel 6 2 c10,c8 10 uf 16v 10% cc1206 x7r c1206x7r100-106kne venkel 7 10 c14,c16,c17,c18,c19,c2 0,c22,c23,c31,c32 0.1 uf 16 v 20% cc0603 x7r c0603x7r160-104mne venkel 8 1 c21 820 pf 50 v 5% cc0805 npo c0805cog500-821jne venkel 9 1 c24 100 uf 16 v 10% c2.5x6.3mm-rad electrolytic uvx1c101mea1td nichicon 10 4 d1,d2,d3,d4 diode 30 v 0.5 a sod123 mbr0530t1 motorola 11 1 d5 bat54c sot-23 bat54c diodes inc. 12 8 d6,d7,d8,d9,d10,d11,d1 2,d13 mmbz15vdc sot-23 mmbz15vdc general semiconductor 13 3 fb1,fb2,fb3 ferrite bead rc0805 blm21a601s murata 14 1 jp1 socket 8x2 conn2x8 ssw-108-01-t-d samtec 15 1 jp2 4x1 socket conn4[6238] ssw-104-01-t-s samtec 16 1 jp3 header 8x2 conn2x8 517-6121tn samtec 17 1 jp4 header 5x2 conn2x5[6238]ra tsw-105-25-t-d-ra samtec 18 8 jp5,jp7,jp8,jp9,jp10,jp 11,jp12,jp13 2x1 header conn2[6040] 517-611tn berg 19 1 jp6 3x5 header conn3x5 20 1 j1 db9-rs232_1 conn9[6543]dbf k22-e9s-030 kycon 21 1 j2 rca jack conn2[12090]rc a 16pj097 mouser 22 1 j3 power connector tb2[12065]tsa 506-5uld02 mouser 23 1 j4 2.1 mm power jack conn3[175120]p wr adc-002-1 adam tech 24 1 j5 usb type b conn-usb-b 897-30-004-90-000000 mill-max 25 1 ls1 speaker hcm12a[9052] hcm1206a jl world 26 1 rj11 mtjg-2-64-2-2-1 rj11[6238]dual mtjg-2-64-2-2-1 adam tech 27 6 r2,r6,r7,r9,r15,r27 0 1/10 w rc0603 cr0603-10w-000jt venkel 28 1 r3 47 k 1/10 w 5% rc0805 nrc10j473tr nic components 29 1 r4 3 k 1/10 w 5% rc0805 nrc10j302tr nic components 30 1 r5 10 1/10 w 1% rc0805 nrc10f10r0tr nic components 31 2 r26,r8 1.3k 1/16 w 5% rc0603 cr0603-16w-132jt venkel 32 10 r10,r11,r12,r17,r18,r1 9,r28,r29,r30,r33 10k 1/16 w 5% rc0603 cr0603-16w-103jt venkel 33 1 r13 1.6 1/8 w -0.05 rc1206 cr1206-8w-1r6jt venkel 34 1 r14 196k rc0805 mchridezhfx1963e classic comp 35 1 r16 110k rc0805 cr21-114j-t classic comp 36 1 r20 4.7 k 1/10 w 5% rc0805 nrc10j472tr nic components 37 1 s1 sw pushbutton sw4[6240]pb 101-0161 mouser 38 3 tp1,tp2,tp18 black test point conn1[6040] 151-203 mouser 39 4 tp3,tp4,tp5,tp6 stand off mh-125 40 8 tp7,tp8,tp10,tp11,tp12, tp13,tp14,tp15 blue test point conn1[6040] 151-205 mouser 41 2 tp16,tp17 red test point conn1[6040] 151-207 mouser 42 1 tp19 blue test point conn1[6040] 151-207 mouser 43 1 u1 7805 to-220-ld ua7805ckc texas instruments 44 1 u2 tps77601dr so8 tps77601dr texas instruments 45 1 u3 ds1818 sot-23 ds1818-10 dallas semiconductor 46 1 u4 max3237 sop65x780-28n max3237e (sipex sp3238e 2nd source) maxim 47 1 u5 cp210 1/02 28-pin mlp cp210 1/02 silicon laboratories 48 2 u8,u7 74cbt3257/so sop65x780-16n sn74cbt3257dbr texas instruments 49 1 u9 pdip socket dip8-skt 210-93-308-41-001000 mill-max 50 1 u10 op-amp so8 lm386m-1 national semi 51 1 u11 gms05f sot-23-5n gms05f vishay item quantit y reference SI2401FS10-EVB 18 rev. 1.1 figure 13. daughter card component side silkscreen SI2401FS10-EVB rev. 1.1 19 figure 14. daughter card solder side silkscreen SI2401FS10-EVB 20 rev. 1.1 figure 15. daughter card component side layout SI2401FS10-EVB rev. 1.1 21 figure 16. daughter card ground plane SI2401FS10-EVB 22 rev. 1.1 figure 17. daughter card power plane SI2401FS10-EVB rev. 1.1 23 figure 18. daughter card solder side layout SI2401FS10-EVB 24 rev. 1.1 figure 19. motherboard silkscreen (front side) SI2401FS10-EVB rev. 1.1 25 figure 20. motherboard silkscreen (back side) SI2401FS10-EVB 26 rev. 1.1 figure 21. motherboard component side layout SI2401FS10-EVB rev. 1.1 27 figure 22. motherboard solder side layout SI2401FS10-EVB 28 rev. 1.1 figure 23. motherboard ground plane layout SI2401FS10-EVB rev. 1.1 29 figure 24. motherboard power plane layout SI2401FS10-EVB 30 rev. 1.1 7. complete design package (s ee sales representative for details) silicon laboratories can provide a complete design package of the SI2401FS10-EVB including the following: orcad schematics gerber files bom documentation please contact your local sales representative or silicon laboratories headquarter sales for ordering information. SI2401FS10-EVB rev. 1.1 31 d ocument c hange l ist revision 0.6 to revision 0.7 ? changed from rev 1.0 to rev 3.1 motherboard. revision 0.7 to revision 0.8 ? changed from rev.1.0 to rev.1.1 daughter card. revision 0.8 to revision 0.9 ? changed from rev.3.1 to rev.3.2 motherboard. revision 0.9 to revision 1.0 ? changed from rev.1.1 to rev.1.2 daughter card. revision 1.0 to revision 1.1 ? updated "introduction?" on page 2. ? updated "SI2401FS10-EVB quick start?rs-232 interface?" on page 2. ? updated "si2401 fs10-evb quick start?usb interface?" on page 2. disclaimer silicon laboratories 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 laboratories 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 laboratories reserves the right to make changes without further notice and limitation to product information, specifications, and descriptions herein, and does not give warranties as to the accuracy or completeness of the included information. silicon laboratories shall have no liability for the consequences of use of the information supplied herein. this document does not imply or express copyright licenses granted hereunder to design or fabricate any integrated circuits. the products must not be used within any life support system without the specific written consent of silicon laboratories. 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 laboratories products are generally not intended for military applications. silicon laboratories 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. trademark information silicon laboratories inc., silicon laboratories, silicon labs, silabs and the silicon labs logo, cmems?, efm, efm32, efr, energy micro, energy micro logo and combinations thereof, "the world?s most energy friendly microcontrollers", ember?, ezlink?, ezmac?, ezradio?, ezradiopro?, dspll?, isomodem ?, precision32?, proslic?, siphy?, usbxpress? and others are trademarks or registered trademarks of silicon laboratories inc. arm, cortex, cortex-m3 and thumb are trademarks or registered trademarks of arm holdings. keil is a registered trademark of arm limited. all other products or brand names mentioned herein are trademarks of their respective holders. http://www.silabs.com silicon laboratories inc. 400 west cesar chavez austin, tx 78701 usa smart. connected. energy-friendly products www.silabs.com/products quality www.silabs.com/quality support and community community.silabs.com |
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