RC56LD

5&/'5&/'DQG5&/' Integrated V.90/K56flex™/V.34/V.32bis Modem Device Sets for Low Power Applications The Conexant™ RC56LD, RC336LD, and RC144LD Modem Device Set supports data/fax, V.80 synchronous access mode, world-class, voice/TAM/ telephony extensions, speakerphone, AudioSpan, DSVD, and cellular/GSM operation depending upon the model, ROM size, and installed firmware (Table 1). The modem supports the following primary data modulations: ITU-T V.90/K56flex™ (RC56), V.34 (RC56 and RC336) and V.32bis. The modem is designed to operate with dial-up telephone lines in the U.S. and world-wide. PC Card interface models also support analog cellular direct connect and GSM direct connect. Parallel host interface models can support either analog cellular direct connect and GSM direct connect or telephony extensions. Serial DTE interface models support telephony extensions. Low profile, small PQFP/TQFP packages and low voltage operation with low power consumption make this device set ideal for laptop, notebook, and palmtop applications using parallel host or serial DTE interface with the MCU or using PC Card interface with the MCUP. The device set consists of an 8-bit microcomputer (MCU) or MCU with built-in PC Card interface (MCUP) in a 128pin TQFP and a modem data pump (MDP) in a 144-pin TQFP or 100-pin PQFP. The SP model can also be ordered with an RCDSVD Speech Codec Processor (SCP) in a 100-pin PQFP to support DSVD. The MCUP PC Card interface supports two peripheral channels, one channel for the modem and a second channel for an optional user-defined function (Function 2). Downloadable architecture supports downloading of modem firmware from the host/DTE to the MCU and, transparently to the host/DTE, the downloading of MDP code modules from the MCU. The modem operates by executing firmware from external 1Mbit (128k x 8) RAM and 2Mbit (256k x 8) ROM/flash ROM. The RC336 and RC144 can alternatively use external 1Mbit or 2Mbit ROM/flash ROM and either internal or external 32k x 8 RAM. Double the normal ROM size for GSM operation. In V.90/K56flex mode (RC56), the modem can receive data at speeds up to 56 kbps from a digitally connected V.90- or K56flex-compatible central site modem. Taking advantage of the PSTN which is primarily digital except for the client modem to central office local loop, V.90/K56flex modems are ideal for applications such as remote access to an Internet Service Provider (ISP), online service, or corporate site. The modem can send data at speeds up to V.34 rates. In V.34 data mode (RC56 and RC336), the modem operates at line speeds up to 33.6 kbps. Error correction (V.42/MNP 2-4) and data compression (V.42 bis/MNP 5) maximize data transfer integrity and boost average data throughput up to 230.4 kbps. Non-error-correcting mode is also supported. In V.32 bis mode, the modem operates at line speeds up to 14.4 kbps. The modem supports fax Group 3 send and receive rates up to 33.6 kbps and supports T.30 protocol. V.80 synchronous access mode supports host-based communication protocols, e. g., H.324 video conferencing. In voice/TAM mode, enhanced 2-bit or 4-bit per sample ADPCM coding and decoding at 7200 Hz sample rate allows efficient digital storage of voice/audio. This mode supports applications such as digital telephone answering machine (TAM), voice annotation, and recording from and playback to the telephone line. SP models support position independent, full-duplex speakerphone (FDSP) operation using microphone and speaker, as well as other voice/TAM applications using handset or headset. SP models also support AudioSpan (analog simultaneous audio/voice and data) operation with a data rate of 4.8 kbps with audio. SP models, using the optional RCDSVD SCP device, support hardware-based (on-board) V.70 DSVD (digital simultaneous voice and data) with speech coding per ITU-T interoperable G.729 and G.729 Annex A with interoperable G.729 Annex B. GSM operation with 4M ROM is not available when the RCDSVD SCP is used. Host-based DSVD is supported in all models, however, the host PC must supply full-duplex sound support, typically to a microphone/speaker, such as provided by Conexant WaveArtist devices or a sound card. GSM operation supports data services offered by the Global System for Mobile Communications network: data transmissions to PSTN, ISDN or GSM users. GSM data operation allows data and fax transfer, and connection to videotex. Analog cellular and GSM direct connect operation is supported by licensed firmware for specific phone types. A common PC board design can support data/fax, V.80, voice/TAM/telephone extensions, speakerphone, AudioSpan, and host- or on-board DSVD operation depending on the installed modem devices. Accelerator kits and reference designs are available to minimize application design time and costs. PC-based “ConfigurACE™ II for Windows” software allows MCU firmware to be customized. 2UGHU 1R 0' 5HY  -DQXDU\   'DWD 6KHHW 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± ± ± ± < < < < < < < < < < < < < < < < < ± < ± < ± < ± 2 ± 2 ± 2 ± 2 ± 3&& 3&& 6(53$5 6(53$5 3&& 3&& 6(53$5 6(53$5 0DUNHWLQJ  0RGHO 1XPEHU 'HYLFH 6HW 2UGHU 1XPEHU 0&8 > 74)3@ 3DUW 1R 0'3 >34)3@ 3DUW 1R 9 DQG .IOH[ 'DWD 9 'DWD *60 9 ELV 'DWD 9 )D[ )D[ &O  DQG  :&ODVV +RVW '69' 9RLFH7$0 &HOOXODU )'63 $XGLR6SDQ 2QERDUG '69' ZLWK 5&'69' >5@ +RVW'7( ,QWHUIDFH 5&/'633&& 5&/'3&& 5&/'63 5&/' 5&/'633&& 5&/'3&& 5&/'63 5&/' 5&/'63 5&/' 1RWHV '6/ '6/ '6/ '6/ '6/ '6/ '6/ '6/ '6/ '6/ / / / / / / / / / / 5 5 5 5 5 5 5 5 5 5 < < < < ± ± ± ± ± ± < < < < < < < < ± ± < < < < < < < < < < < ± < ± < ± < ± < ± 2 ± 2 ± 2 ± 2 ± 2 ± 3&& 3&& 6(53$5 6(53$5 3&& 3&& 6(53$5 6(53$5 6(53$5 6(53$5  0RGHO RSWLRQV < /' 3&& 63 6(53$5 6XSSRUWHG ± 1RW VXSSRUWHG 2 2SWLRQDO /RZ SRZHU 'RZQORDGDEOH 3& &DUG KRVW LQWHUIDFH 6SHDNHUSKRQH DQG ZLWK 5&'69' 6&3 RQERDUG '69' 6HULDO '7( RU SDUDOOHO KRVW ,QWHUIDFH 6XSSRUWHG ± 1RW VXSSRUWHG  6XSSRUWHG IXQFWLRQV < $XGLR6SDQ &HOOXODU '69' )D[ &O  DQG  )'63 9RLFH7$0 *60 $QDORJ VLPXOWDQHRXV YRLFH DQG GDWD $QDORJ DQG IRU SDUDOOHO KRVW RU 3& &DUG LQWHUIDFH *60 FHOOXODU 'LJLWDO VLPXOWDQHRXV YRLFH DQG GDWD )D[ &ODVV  DQG )D[ &ODVV  VXSSRUW )XOOGXSOH[ VSHDNHUSKRQH 9RLFH DQG WHOHSKRQH DQVZHULQJ PDFKLQH VXSSRUW KDQGVHW VXSSRUW UHTXLUHV 63 PRGHO *OREDO 6\VWHP IRU 0RELOH &RPPXQLFDWLRQV *60 LV QRW VXSSRUWHG ZLWK WKH VHULDO '7( LQWHUIDFH Information provided by Conexant Systems, Inc. is believed to be accurate and reliable. However, no responsibility is assumed by Conexant for its use, nor any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent rights of Conexant other than for circuitry embodied in Conexant products. Conexant reserves the right to change circuitry at any time without notice. This document is subject to change without notice. K56flex is a trademark of Conexant Systems, Inc. and Lucent Technologies. Conexant, “What's Next in Communications Technologies”, MNP 10EC, and ConfigurACE are trademarks of Conexant Systems, Inc. Product names or services listed in this publication are for identification purposes only, and may be trademarks or registered trademarks of their respective companies. All other marks mentioned herein are the property of their respective owners. ©1999, Conexant Systems, Inc. Printed in U.S.A. All Rights Reserved. 2 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV Features • Downloadable MCU firmware from the host/DTE and downloadable MDP code modules from the MCU • Data modem − ITU-T V.90 and K56flex (RC56LD models) − V.34 (33.6 kbps) (RC56LD and RC336LD models) − V.32 bis, V.32, V.22 bis, V.22, V.23, and V.21; Bell 212A and 103 − V.42 LAPM, MNP 2-4, and MNP 10 error correction − V.42 bis and MNP 5 data compression − MNP 10EC™ enhanced cellular performance • Analog cellular direct connect • GSM cellular direct connect • Fax modem send and receive rates up to 33.6 kbps − ITU-T V.34, V.17, V.29, V.27 ter, and V.21 channel 2 • V.80 synchronous access mode supports host-based communication protocols • World-class operation − Call progress − Blacklisting − Multiple country support • Voice/TAM mode/telephony extensions − Handset support (SP models) • Full-duplex speakerphone (FDSP) mode (SP models) − Acoustic and line echo cancellation − Microphone gain and muting − Speaker volume control and muting • AudioSpan simultaneous audio/voice and data (SP models) − ITU-T V.61 modulation (4.8 kbps data with audio) − Handset, headset, or half-duplex speakerphone • ITU-T V.70 DSVD using the RCDSVD SCP (SP models) − ITU-T interoperable G.729 and G.729 Annex A with interoperable G.729 Annex B − Voice/silence detection and handset echo cancellation − Robust DSVD timing recovery − Handset, headset, or half-duplex speakerphone • Host-based DSVD support with V.70 software drivers for Windows 95 • Communication software compatible AT command sets • NVRAM directory, stored profiles, and CIS table (option) • Flash memory support • Internal phase-locked loop (PLL) • Built-in host/DTE interface with speeds up to 230.4 kbps − Parallel 16550A UART-compatible interface (MCU) − Serial ITU-T V.24 (EIA/TIA-232-E) (MCU) − PC Card (MCUP) • PC Card interface supports two functions with programmable I/O window size (MCUP only) • Flow control and speed buffering • Automatic format/speed sensing • Serial sync/async data; parallel async data • Caller ID and distinctive ring detect • JTAG Boundary Scan support • Flexible PQFP and TQFP packaging options − MCU/MCUP: 128-pin TQFP − MDP: 144-pin TQFP or 100-PQFP − RCDSVD SCP: 100-pin PQFP MD213 5&/'5&/'DQG5&/' • +3.3V operation with +5V tolerant inputs • Sleep Mode • Power use (mW, typical): Device Normal Sleep MCU/MCUP 165 10 MDP 250 33 SCP 550 50 Description General The modem device set, consisting of separate microcontroller (MCU/MCUP), modem data pump (MDP), and optional RCDSVD Speech Codec Processor (SCP) devices, provides the processing core for a complete modem design. For data/fax/V.80/voice/TAM/speakerphone/hostDSVD/AudioSpan operation, only the microcontroller (MCU) and modem data pump (MDP) devices are needed. The OEM adds an MCU crystal, discrete components, and a telephone line/telephone/voice/TAM/analog cellular/GSM cellular interface circuit to complete the modem system. Telephony extensions are supported in the serial DTE models and optionally in the parallel host models. Optional on-board DSVD operation is supported with addition of the RCDSVD Speech Codec Processor (SCP) device to an SP model. Table 1 shows the supported functions by product family. Dialing, call progress, V.80, telephone line interface, voice/TAM, speakerphone, AudioSpan, DSVD, analog cellular phone, and GSM phone interface functions are supported and controlled through the AT command set. Connection to the host/DTE is supported by serial DTE interface (Figure 1), parallel host interface (Figure 2), or PC Card interface (Figure 3), depending on modem model and installed firmware. GSM operation is supported for parallel host and PC Card interface only. For U.S. operation, the modem can operate with a 1-relay data/fax/TAM DAA interface (Figure 4) or a 2-relay data/fax/TAM/V.61/Speakerphone DAA interface (Figure 5). Data/Fax Modes In V.90/K56flex data modem mode (RC56), the modem can receive data from a digital source using a V.90- or K56flex-compatible central site modem at line speeds up to 56 kbps. Asymmetrical data transmission supports sending data at speeds up to V.34 rates. This mode can fallback to full-duplex V.34 mode. In V.34 data modem mode (RC56 and RC336), the modem can operate in 2-wire, full-duplex, asynchronous modes at line rates up to 33.6 kbps. Data modem modes perform complete handshake and data rate negotiations. Using V.34 modulation to optimize modem configuration for line conditions, the modem can connect at the highest data rate that the channel can support from 33.6 kbps to 300 bps with automatic fallback. Automode operation in V.34 is provided in accordance with PN3320 and in V.32 bis in accordance with PN2330. All tone and pattern detection functions required by the applicable ITU or Bell standard are supported. 3 Conexant 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV MODEM DEVICE SET SERIAL DTE/ INDICATOR INTERFACE MICRO CONTROLLER UNIT (MCU) [L2701: 128-PIN TQFP] 256 x 8 SERIAL NVRAM (OPTIONAL) MODEM DATA PUMP (MDP) [R6785: 144-PIN TQFP] OR [R6764: 100-PIN PQFP] RCDSVD SPEECH CODEC PROCESSOR (SCP) [R6715-14: 100-PIN PQFP] (OPTIONAL) RAM 1M (128K x 8) [RC56/RC336/RC144] or 32K x 8* [RC336/RC144] ROM/FLASH ROM 2M (256K x 8) [RC56/RC336/RC144] or 1M (128K x 8) [RC336/RC144] TELEPHONE LINE/ TELEPHONE HANDSET/ TELEPHONY EXTENSIONS AUDIO INTERFACE CIRCUIT TELEPHONE LINE TEL HANDSET HEADPHONE/ SPEAKER MICROPHONE * L2701 internal 32K x 8 RAM may alternatively be used. 1156F1-1 BD-Ser )LJXUH  %ORFN 'LDJUDP  6HULDO '7( ,QWHUIDFH MODEM DEVICE SET GSM PHONE MODEM DATA PUMP (MDP) [R6785: 144-PIN TQFP] OR [R6764: 100-PIN PQFP] RCDSVD SPEECH CODEC PROCESSOR (SCP)*[R6715-14: 100-PIN PQFP] (OPTIONAL) ANALOG CELLULAR PHONE TELEPHONE LINE TEL HANDSET HEADPHONE/ SPEAKER MICROPHONE PARALLEL HOST BUS INTERFACE 256 x 8 SERIAL NVRAM (OPTIONAL) MICRO CONTROLLER UNIT (MCU) [L2701: 128-PIN TQFP] ANALOG CELLULAR/ TELEPHONE LINE/ TELEPHONE HANDSET/ TELEPHONY EXTENSIONS/ AUDIO INTERFACE CIRCUIT RAM 1M (128K x 8) [RC56/RC336/RC144] or 32K x 8** [RC336/RC144] ROM/FLASH ROM*** 2M (256K x 8) [RC56/RC336/RC144] or 1M (128K x 8) [RC336/RC144] * RCDSVD not supported in GSM mode. ** L2701 internal 32K x 8 RAM may alternatively be used. *** For GSM, double the ROM size. 1156F1-2 BD-Par )LJXUH  %ORFN 'LDJUDP  3DUDOOHO +RVW ,QWHUIDFH 4 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV 5&/'5&/'DQG5&/' MODEM DEVICE SET FUNCTION 2 CONTROLLER (OPTIONAL) FUNCTION 2 INTERFACE PC CARD BUS INTERFACE GSM PHONE MODEM DATA PUMP (MDP) [R6785: 144-PIN TQFP] OR [R6764: 100-PIN PQFP] RCDSVD SPEECH CODEC PROCESSOR (SCP)* [R6715-14: 100-PIN PQFP] (OPTIONAL) RAM 1M (128K x 8) [RC56/RC336/RC144] or 32K x 8** [RC336/RC144] ROM/FLASH ROM*** 2M (256K x 8) [RC56/RC336/RC144] or 1M (128K x 8) [RC336/RC144] 1156F1-3 BD-PC )LJXUH  %ORFN 'LDJUDP  3DUDOOHO 3& &DUG ,QWHUIDFH 256 x 8 OR 2048 x 8 SERIAL NVRAM (OPTIONAL) MICRO CONTROLLER UNIT (MCUP) [L2701: 128-TQFP] ANALOG CELLULAR PHONE ANALOG CELLULAR/ TELEPHONE LINE/ TELEPHONE HANDSET/ AUDIO INTERFACE CIRCUIT TELEPHONE LINE TEL HANDSET HEADPHONE/ SPEAKER MICROPHONE * RCDSVD not supported in GSM mode. ** L2701 internal 32K x 8 RAM may alternatively be used. *** For GSM, double the ROM size. MD213 Conexant 5 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV ~CELBSY CELBSY CELCLK CELDATA ~CELBSY CELBSY CELCLK CELDATA DAA/CELL CTRL1 CTRL0 CELLULAR PHONE DAA/CELL CTRL1 ~OH/CTRL0 RINGIN RIN ~OH DAA/CELL SW CEL_TX CEL_RX ~OH MODEM DEVICE SET TXA2 TXA1 HYBRD & XFRMR SSI & BRDGE RNG DET SURG PROT TIP RING TELEPHONE LINE TELEPHONE LINE/TELEPHONE HANDSET INTERFACE CIRCUIT MICV MIC AMP SPKM MICROPHONE MICROPHONE /SPEAKERS SPEAKER1 SPEAKER2 AMP TELEPHONE LINE/ CELLULAR PHONE/AUDIO INTERFACE CIRCUIT SP MODELS 1156F1-4 ASF )LJXUH  5HOD\ 'DWD)D[7$0 '$$ ,QWHUIDFH 86 LCS RINGD ~VOICE ~OH VC TXA1 TXA2 RIN HYBRD & XFRMR SSI & BRDGE OH RELAY SURG PROT TEL LINE TELOUT TELIN HANDSET HYBRID CUR SRC MODEM DEVICE SET (SP MODELS) RNG DET VOICE RELAY LCS TEL HANDSET TELEPHONE LINE/TELEPHONE HANDSET INTERFACE CIRCUIT MICV BIAS MICROPHONE SPK AMP/ SOUNDUCER (OPTIONAL) HEADPHONE AUDIO/HEADPHONE INTERFACE CIRCUIT 1054F1-3 AIF 2R-US )LJXUH  5HOD\ 'DWD)D[7$06SHDNHUSKRQH$XGLR6SDQ '$$ ,QWHUIDFH 86 6 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV In V.32 bis mode, the modem operates at line speeds up to 14.4 kbps. In fax modem mode, the modem can operate in 2-wire, half-duplex, synchronous mode and can support Group 3 facsimile send and receive speeds of 33600, 31200, 28800, 26400, 24000, 21600, 19200, 16800, 14400, 12000, 9600, 7200, 4800, and 2400 bps. Using V.34 modulation to optimize modem configuration for line conditions, the modem can connect at the highest data rate that the channel can support at speeds up to 33.6 kbps with automatic rate adaption. Fax data transmission and reception performed by the modem are controlled and monitored through the EIA/TIA-578 Fax Class 1, T.31 Fax Class 1.0, or Fax Class 2 command interface. Full HDLC formatting, zero insertion/deletion, and CRC generation/checking are provided. Both transmit and receive fax data are buffered within the modem. Data transfer to and from the DTE is flow controlled by XON/XOFF and RTS/CTS. Synchronous Access Mode (SAM) V.80 synchronous access mode between the modem and the host/DTE is provided for host-based communication protocols, e.g., H.324 video conferencing applications. Voice-call-first (VCF) before switching to a videophone call is also supported. World Class Operation W-class functions support modem operation in multiple countries. Additional modem functions are provided in areas such as dialing, carrier transmit level, calling tone, call progress tone detection, answer tone detection, blacklisting, and relay control. Country dependent parameters are programmable by ConfigurACE II for Windows. Voice/TAM Mode Voice/TAM Mode features include enhanced ADPCM compression/decompression, tone detection/generation and call discrimination, concurrent DTMF detection, and 8-bit monophonic audio data encoding. Voice/TAM Mode is supported by three submodes: 1. 2. Online Voice Command Mode supports connection to the telephone line or, for SP models, a handset. Voice Receive Mode supports recording voice or audio data input at the RIN pin, typically from the telephone line or, for SP models, a microphone/handset. Voice Transmit Mode supports playback of voice or audio data to the TXA1/TXA2 output, typically to the telephone line or, for SP models, a speaker/handset. 5&/'5&/'DQG5&/' echo cancellation. Parameters are constantly adjusted to maintain stability with automatic fallback from full-duplex to pseudo-duplex operation. The speakerphone algorithm allows position independent placement of microphone and speaker. The speakerphone mode provides hands-free full-duplex telephone operation under host control. The host can separately control volume, muting, and AGC in microphone and speaker channels. AudioSpan Mode (SP Models) AudioSpan provides full-duplex analog simultaneous audio/voice and data over a telephone line at a data rate of 4800 bps with audio using V.61 modulation. AudioSpan can send any type of audio waveform, including music. Data can be sent with or without error correction. The audio/voice interface can be in the form of a headset, handset, or a microphone and speaker. Handset echo cancellation is provided. DSVD Mode using RCDSVD SCP Device (SP Models) On-board DSVD operation requires installation of the optional RCDSVD SCP (R6715-14). GSM operation is not available when the RCDSVD SCP is connected because MCU port PB5 is used for SCP chip select output (~SVDSEL) rather than address line A18 output which is needed to support the 4M ROM. DSVD provides full-duplex digital simultaneous voice and data over a single telephone line. DSVD uses codecs in the RCDSVD SCP to code (compress) analog speech signal on the RCDSVD LINEIN pin or MICIN pin for passing to the modem controller in digitized form, and to decode (decompress) coded speech received from the modem controller for routing to the RCDSVD LINEOUT pin or SPKP/SPKN pins in analog form. DSVD operates in accordance with ITU-T interoperable G.729 and G.729 Annex A with interoperable G.729 Annex B. Voice activity detection supports speech coding at average bit rate significantly lower than 8.0 kbps. DSVD decoder timing recovery algorithm compensates for clock skew, asynchronous host-to-decoder data transfer delay, intervening variable length data block transmission delay, and loss of encoded speech data. The voice interface can be in the form of a headset, handset or a microphone and speaker (half-duplex speakerphone). Handset echo cancellation supports handset use through a hybrid. In Handset Mode, the RCDSVD SCP interfaces to the telephone interface circuit using the Line Input (LINEIN) and Line Out (LINEOUT) lines. In Headset or Speakerphone Mode, the RCDSVD SCP interfaces to the audio interface circuit using the Microphone Input (MICIN) and Speaker out (SPKR) lines. Host-Based DSVD All modem models support host-based ITU-T V.70 DSVD. The RCDSVD SCP (R6715) is not required. V.70 software drivers for Windows 95 are provided which support a speech/audio bit rate of significantly less than 8.0 kbps by implementing interoperable G.729 and G.729 Annex A with interoperable G.729 Annex B. The minimum PC performance recommended for host-based DSVD is 7 3. Telephony Extension Operation Extension pickup/remote hangup detection and line-in-use detection are supported in serial DTE models optionally (in lieu of cellular/GSM support) in parallel host models. Speakerphone Mode (SP Models) The speakerphone mode features an advanced proprietary speakerphone algorithm which supports fullduplex voice conversation with both acoustic and line MD213 Conexant 5&/'5&/'DQG5&/' 150 MHz Pentium or equivalent. The V.70 software drivers require about 10% of the MIPS available in a Pentium 150 MHz class PC. The host PC must supply fullduplex sound support, typically to a microphone/speaker, such as provided by Conexant WaveArtist devices or a sound card. The modem is configured for host-based V.70 via AT commands, and, when using a TAPI-compliant communication application, the V.70 software drivers will automatically run upon a successful V.70 connection. Sleep Mode Sleep Mode is supported in the modem device set and the RCDSVD SCP device. GSM (Parallel Host or PC Card Interface) GSM operation requires installation of 4M (RC56) or 2M (RC336 or RC144) ROM. On-board DSVD is not available when the 4M ROM is installed because MCU port PB5 is used for address line A18 output rather than RCDSVD SCP chip select output (~SVDSEL). Features supported in GSM operation include: • Data modem − V.21, V.23, V.22, V.22 bis, V.32 − ISDN interoperability: 300 bps to 9600 bps • Transparent asynchronous mode up to 9600 bps • Non-transparent mode (RLP) up to 9600 bps • Fax modem send and receive rate up to 9600 bps • AT GSM commands (ETSI 07.07) • GSM direct connect • Firmware interface for OEM-provided phone driver • Automatic GSM cable presence detection • Built-in parallel host (16550A UART) interface Modem Data Pump (MDP) The data/fax/voice/speakerphone modem data pump (MDP) is a Conexant R6785 packaged in a 144-pin TQFP or a R6764 packaged in a 100-pin PQFP. The input clock frequency is 28.224 MHz and is supplied by the MCU. An internal phase locked loop (PLL) circuit supports 56.448 MHz internal operation. The operating voltage is +3.3V supplied by the MCU with +5V tolerant inputs. The R6785 supports either +3.3V (~SET3V is tied to AGND) or +5V (~SET3V pin is NC) analog signal interface; the R6764 supports +3.3V analog signal interface. In V.90/K56flex data modem mode (RC56), the MDP can receive data from a digital source using a V.90- or K56flex-compatible central site modem at line speeds up to 56 kbps. Asymmetrical data transmission supports sending data at speeds up to V.34 rates. In V.34 data modem mode (RC56 and RC335), the MDP can operate in 2-wire, full-duplex, synchronous/asynchronous modes at line rates up to 33.6 kbps. Using V.34 modulation to optimize modem configuration for line conditions, the MDP can connect at the highest data rate that the channel can support from 33.6 kbps to 300 bps with automatic fallback. Automode operation in V.34 is provided in accordance with PN3320 and in V.32 bis in accordance with PN2330. In V.32 bis mode, the MDP can operate at line speeds up to 14.4 kbps. ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV In fax modem mode, the MDP supports Group 3 facsimile send and receive speeds of speeds of 33600, 31200, 28800, 26400, 24000, 21600, 19200, 16800, 14400, 12000, 9600, 7200, 4800, and 2400 bps. ADPCM voice processing is supported. Downloading of MDP code from the MCU is supported. Microcontroller (MCU/MCUP) The MCU/MCUP is a Conexant 8-bit microcomputer with pins to support serial DTE/parallel host bus/PC Card, MDP, voice/TAM, speakerphone, and RCDSVD SCP interface operation, depending upon model and installed firmware. The operating voltage is +3.3V with +5V tolerant inputs. The MCU connects to the DTE/host via a V.24 (EIA/TIA232-E) serial DTE interface or a parallel host bus depending on installed MCU firmware, whereas the MCUP connects to a PC Card socket via built-in PC Card interface. Unless otherwise stated, references to general MCU functions also include the MCUP. The MCU performs the command processing and host interface functions. The crystal frequency is 28.224 MHz. The MCU outputs a 28.224 MHz clock to the MDP eliminating need for a separate MDP crystal circuit. The MCU connects to the MDP via dedicated lines and the external bus. The external bus also connects to OEMsupplied RAM (if more than 32 kbytes are required), OEMsupplied ROM/flash ROM, and to the optional RCDSVD SCP. The MCU/MCUP provides 32 kbytes of internal RAM that can be used instead of external RAM for 32-kbyte RAM applications. The MCU connects to an optional 256-byte or 2048-byte serial EEPROM over a dedicated serial interface. The MCU and MCUP are both packaged in a 128-pin TQFP. MCU Serial DTE or Parallel Host Interface The MCU connects to the DTE/host via a V.24 (EIA/TIA232-E) serial DTE interface or a parallel host bus depending on installed MCU firmware. In parallel host interface, the MCU can also connect to a PC Card connector using a Conexant PCMCIA Interface Control Adapter (PICA) device (see data sheet Order No. MD99) and a PCMCIA Card Information Structure (CIS) memory device. MCUP PC Card Interface The MCUP incorporates a built-in PC Card interface and CIS memory allowing the MCUP to directly connect to the PC Card 68-pin socket without requiring external PICA and CIS devices. Two independent functions are supported, the modem function and an optional user-defined Function 2. A Card Option Configuration Register and a Configuration and Status Register for each function allow independent configuration/control and status reporting of the respective function. 8 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV The MCUP PC Card interface features include: • PC Card interface logic and memory − Internal 512-byte Card Information Structure (CIS) provides the tuple information needed to define the PC Card functionality. 5&/'5&/'DQG5&/' The modem firmware is provided in object code form for the OEM to program into external ROM/flash ROM. The modem firmware may also be provided in source code form under a source code addendum license agreement. Supported Interfaces The major hardware signal interfaces of the modem device set are identified in Figure 1 (serial DTE interface), Figure 2 (parallel host interface), and Figure 3 (PC Card interface). Serial DTE Interface and Indicator Outputs (MCU Only) A V.24/EIA/TIA-232-E logic-compatible serial DTE interface is selected when the Parallel/Serial Interface (PARIF) input is low. One serial transmit data input line (~TXD), one serial receive data output line (~RXD), three synchronous clocks (~XTCLK, ~RXCLK, and ~TXCLK), four control input lines (~DTR, ~RTS, ~RDL, and ~AL), and six status output lines (~CTS, ~DSR, ~RLSD, ~TM, ~RI, and ~DRSOUT) are supported. Three dedicated indicator output lines (~DTRIND, ~TMIND, and ~AAIND) are also provided. Parallel Host Bus Interface (MCU Only) A 16550A UART-compatible parallel host bus interface is selected when the Parallel/Serial Interface (PARIF) input is high. The interface signals are: eight bidirectional data lines (HD0-HD7), three address input lines (HA0-HA2), three control input lines (~HCS, ~HRD, and ~HWT), one status output line (HINT), and a reset input line (-RESET). In addition, a 512-byte fax data buffer is used to provide reliable performance in a multi-tasking environment. PC Card Interface (MCUP Only) The built-in PC Card interface and CIS memory allows the MCUP to connect directly to the PC Card connector without requiring external PICA and CIS devices. Interface to two functions, the modem and a user-defined Function 2, are supported. NVRAM (Serial EEPROM) Interface A 2-line serial interface to non-volatile RAM (NVRAM, i.e., serial EEPROM) is supported. The interface signals are a bidirectional data line (NVMDATA) and a clock output line (NVMCLK). Data stored in NVRAM can take precedence over the factory default settings. A 256-byte NVRAM can store up to two user-selectable configurations and up to four 32-digit dial strings for PSTN/GSTN or GSM operation. When the MCUP is used, a 2048-byte NVRAM can also store the 512-byte CIS table (optional). External Bus Interface The non-multiplexed external bus supports eight bidirectional data lines (D0-D7) and 19 address output lines (A0-A18). Read enable output (~READ), write enable output (~WRITE), and four chip select output (~ROMSEL, ~RAMSEL, ~DPSEL, and ~SCPSEL) lines are also supported. Address line A18 and ~SCPSEL share the same pin; A18 is used when a 4M ROM is installed for GSM operation, and ~SVDSEL is used when an RCDSVD SCP is installed for on-board DSVD operation. 9 − CIS Table is configurable from ROM/flash memory (default) or from NVRAM (option) − Address decode logic • Modem Function − Decoding for standard COM ports in Overlapping I/O Address Mode − Independent I/O Address Mode support − Power-down mode control − Digital speaker pass-through − Supports two ring handling methods − Ring Indicate pass-through to Status Change − Six 8-bit Modem Function Card Configuration Registers Configuration Option Register (full support) Configuration and Status Register (full support) Pin Replacement Register (CREADY and RREADY) Extended Status Register (RIEvt and RIEnab) I/O Base Register 0 I/O Base Register 1 • Optional User-defined Function 2 − Reset and chip select control − Power-down mode control − 16-bit data transfer control − Disable EEPROM control − Interrupt request pass through − Four 8-bit Card Configuration Registers Configuration Option Register (full support) Configuration and Status Register (full support) I/O Base Register 0 I/O Base Register 1 RCDSVD Speech Codec Processor (SCP) (Optional) The RCDSVD SCP (R6715-14), required for on-board DSVD operation, is packaged in a 100-pin PQFP. The 56.448 MHz crystal frequency is supplied by the MDP XCLK output. MCU Firmware MCU firmware performs processing of general modem control, command sets, data modem, error correction and data compression (ECC), fax class 1, fax class 2, DSVD, AudioSpan, voice/audio/TAM/speakerphone, W-class, V.80, analog cellular, GSM, and serial DTE/parallel host/PC Card interface functions according to modem models (Table 1). Configurations of the modem firmware are provided to support parallel host bus interface (MCU only), serial DTE interface (MCU only) or PC Card interface (MCUP only) operation. MD213 Conexant 5&/'5&/'DQG5&/' The external bus connects to OEM-supplied 1Mbit (128k x 8), 2Mbit (256k x 8), or 4Mbit (512k x 8) external ROM/flash ROM; 32k x 8 external or internal SRAM or 1Mbit (128k x 8) external SRAM, the MDP, and the optional RCDSVD SCP depending upon modem model and operating mode. . For RC336 and RC144 models, MCU internal 32k x 8 RAM can be used instead of an external 32k x 8 RAM. Telephone Line Interface MCU/MCUP. For parallel host or PC Card interface, wireline operation is selected when a DAA interface is indicated on the DAA/CELL and DAA/GSM inputs or when a cellular interface is indicated on the DAA/CELL input but no analog cellular firmware driver is loaded. Relay control outputs to the line interface are supported: • ~RLY1: Off-hook (~OH) (~RLY1). • ~RLY2: Voice (~VOICE), if needed. Pulse (~PULSE) relay function can be enabled by ConfigurACE II. • ~RLY3: Mute (~MUTE), if needed, can be enabled by ConfigurACE II. • ~RLY4: Caller ID (~CALLID) if needed. The DAAs shown in Figure 4 and Figure 5 support the Caller ID function without use of a separate relay. Ring signal (RINGD) and loop current sense (LCS) inputs are also supported. Telephony extensions are supported by the Extension OffHook (~EXTOH) input (MCU only). MDP. A single-ended receive analog input (RIN) and a differential transmit analog output (TXA1/TXA2) are supported. A digitized speaker output (SPKMD) is provided for call progress monitoring. Analog Cellular Phone Interface (Parallel Host and PC Card Interface) MCU/MCUP. Analog cellular operation is selected when a cellular interface is indicated on the DAA/CELL input and a cellular firmware driver is loaded. Signals supported are two encoded control outputs (CTRL0 and CTRL1), a bidirectional serial data line (CELDATA), a data clock input (CELCLK), a cellular busy output (CELBSY), and a cellular busy input (~CELBSY). MDP. A single-ended receive analog input (RIN) and a differential transmit analog output (TXA1 and TXA2) are supported. GSM Interface (Parallel Host and PC Card Interface) MCU/MCUP. GSM operation is selected when a GSM interface is indicated on the DAA/GSM input. Signals supported are: a control output (GSMCTL0), a control input (GSMINP0), a serial transmit data output (GSMTXD), a serial receive data input, a receive data clock input (RXDCLK), and a transmit data clock input (TXDCLK). MDP. Not used in GSM operation. Speakerphone Interface (SP Models) Microphone input (MICV) and a speaker output (SPKM) lines connect to handset, headset, or a microphone and speaker to support functions such as AudioSpan headset and speakerphone modes, FDSP, telephone emulation, 10 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV microphone voice record, speaker voice playback, and call progress monitor. The speaker output (SPKM) carries the normal speakerphone audio or reflects the received analog signals in the modem. An input from the telephone microphone (TELIN) and an output to the telephone speaker (TELOUT) are supported in AudioSpan modes. These lines connect voice record/playback and AudioSpan audio to the local handset. RCDSVD SCP Interface (SP Models) The Line In (LINEIN) and Line Out (LINEOUT) lines connect DSVD audio to the local telephone handset. Microphone input (MICIN) and speaker output (SPKP) lines connect to the microphone and speaker to support DSVD headset and speakerphone modes. PC Card Interface (MCUP Only) The host interface controls and receives status information from the modem and the Function 2 controller by the use of two separate sets of card configuration registers contained in attribute memory. The Card Information Structure (CIS) is also addressed in attribute memory, and contains information about the PC Card and its features. The address decode logic controls access to the card configuration registers in attribute memory, decodes valid accesses to the CIS, generates chip selects to the Ethernet controller and to the modem, and generates the input acknowledge signal (-INPACK) to the host. The 512-byte CIS table physically resides in the MCUP. The CIS table provides the host with PC Card specific information including card type, address range decoding capability, and control requirements to complete host link establishment with the PC Card. Supported interface signals to the Function 2 controller are chip select (~CH2CS), power down (~PWRDWN2), reset (~RESOUT2), disable EEPROM (~DISEEP), A0 data bit (A0OUT), and 16-bit data select (~IO16E). An interrupt input (~IREQ2) from the Function 2 controller is also supported. Address inputs (HA0-HA4) and bidirectional data bus lines (HD0-HD15) from the PC Card Connector connect directly to the Function 2 controller to support data transfer between the Function 2 controller and the host. In addition, host read (~IORD), host write (~IOWR), chip select (~CE2), and I/O channel ready (IOCHRDY) signals connect directly from the PC Card Connector to the Function 2 controller.] Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV Hardware Interface Signals The modem hardware interface signals are shown in Figure 6 (serial DTE interface), Figure 7 (parallel host interface), and Figure 8 (PC Card interface). The MCU pin assignments for the 128-pin TQFP with serial DTE interface are shown in Figure 9. The MCU pin assignments for the 128-pin TQFP with parallel host interface are shown in Figure 10. The MCUP pin assignments for the 128-pin TQFP are shown in Figure 11. 5&/'5&/'DQG5&/' The MDP pin assignments are shown in Figure 12 for the 144-pin TQFP and in Figure 13 for the 100-pin PQFP. The RCDSVD SCP pin assignments for the 100-pin PQFP are shown in Figure 14. Additional Information Additional information is described in the RC56LD and RC336LD Designer’s Guide (Order No. 1156) and in the AT Command Reference Manual (Order No. 1199). MD213 Conexant 11 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV ~XTCLK ~TXCLK ~RXCLK ~TXD ~RXD ~CTS ~DSR DTE SERIAL/ INDICATOR INTERFACE ~EXTOH ~RLY1 (~OH) ~RLY2 (~VOICE) ~RLY3 (~MUTE) ~RLY4 (CALLID) LCS RINGD ~XTCLK ~TXCLK ~RXCLK ~TXD CLKOUT ~DPRXD DPIRQ ~DPSEL ~READ ~WRITE MICRO CONTROLLER UNIT (MCU) A0-A17 D0-D7 ~ROMSEL ~RAMSEL ~READ ~WRITE A0-A4 D0-D7 RS0-RS4 MODEM DATA PUMP (MDP) RES1 RES2 ~RESET VDD +3.3V CLKIN RXD IRQ ~CS RIN TXA1 TXA2 MICM SPKMD TELIN (SP Models) TELOUT (SP Models) MICV (SP Models) SPK TELEPHONE/ TELEPHONE LINE/ TELEPHONE HANDSET/ TELEPHONY EXTENSIONS/ AUDIO INTERFACE CIRCUIT TELEPHONE LINE ~RLSD ~TM ~RI ~DRSOUT ~DTR ~RTS ~RDL ~AL ~DTRIND ~TMIND ~AAIND ~CLKSTOP TELEPHONE HANDSET MICROPHONE HEADPHONE/ SPEAKER NVMDATA NVRAM (OPTIONAL) NVMCLK RESET CIRCUIT ~RESET ~RES ~RESET AVDD +3.3V VAA +3.3V DGND, AGND PARIF ~WKRES XCLK ~WKRESOUT XTLI MCU CRYSTAL XTLO ~SCPSEL ~SCPIRQ ~RESET ~CS ~IRQ1 A0-A4 XTLI MICIN SPKP +3.3V VDD DGND D0-D7 ~READ ~WRITE DGND, AGND RCDSVD SCP (R6715) LINEIN LINEOUT VDD AVDD VAA VCC (+5V) VCC (+5V) VCC (+5V) A0-A17 D0-D7 EXTERNAL BUS ~READ ~WRITE ~ROMSEL A0-A16 D0-D7 ~READ ~WRITE ~RAMSEL 1156F3-1 IF Ser ROM/FLASH ROM 2M (256K X 8) [RC56] 1M (128K x 8) [RC336 or RC144] RAM 1M (128K X 8) [RC56] None (Use internal RAM (RC336 or RC144) )LJXUH  +DUGZDUH ,QWHUIDFH 6LJQDOV  6HULDO '7( ,QWHUIDFH 12 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV DAA/GSM CTRL0*** GSMINP0*** GSMRXD*** RXDCLK*** GSMTXD*** TXDCLK*** 5&/'5&/'DQG5&/' GSM PHONE INTERFACE ~EXTOH (Firmware option, instead of DAA/CEL) XTLI MCU CRYSTAL XTLO CELDATA** ~CELBSY** CELCLK** DAA/CEL (Firmware option, instead of ~EXTOH) ~RLY1 (~OH)*/CTRL0** HD0-HD7 HA0-HA2 PARALLEL HOST BUS INTERFACE ~HCS ~HWT ~HRD HINT ~RESET ~RES ~RESET MICRO CONTROLLER UNIT (MCU) CLKOUT DPIRQ ~DPSEL NVMDATA NVRAM (OPTIONAL) NVMCLK ~READ ~WRITE A0-A18**** NC PARIF D0-D7 ~ROMSEL ~RAMSEL +3.3V VDD DGND ~READ ~WRITE A0-A4 D0-D7 RS0-RS4 MODEM DATA PUMP (MDP) CLKIN IRQ ~CS ~RLY2 (~VOICE)*/CTRL1** ~RLY3 (~MUTE)* ~RLY4 (~CALLID)* LCS* RINGD* CELLULAR PHONE/ TELEPHONE/ TELEPHONE LINE/ TELEPHONE HANDSET/ TELEPHONY EXTENSIONS/ AUDIO INTERFACE CIRCUIT CELLULAR PHONE/ TELEPHONE LINE RIN* TXA1* TXA2* MICM SPKMD TELIN (SP Models) TELOUT (SP Models) MICV (SP Models) SPK TELEPHONE HANDSET MICROPHONE HEADPHONE/ SPEAKER RES1 RES2 VDD AVDD VAA ~RESET +3.3V +3.3V +3.3V DGND, AGND ~WKRES XCLK XTLI ~WKRESOUT ~SCPSEL**** ~SCPIRQ ~RESET ~CS ~IRQ1 A0-A4 D0-D7 ~READ ~WRITE EXTERNAL BUS DGND, AGND VDD AVDD VAA +5V +5V +5V MICIN SPKP RCDSVD SCP (R6715) LINEIN LINEOUT A0-A18**** D0-D7 ~READ ~WRITE ~ROMSEL A0-A16 D0-D7 ~READ ~WRITE ~RAMSEL 1156F3-2 IF Par NOTES * WIRELINE INTERFACE ** ANALOG CELLULAR INTERFACE *** GSM INTERFACE **** A18/~SCPSEL IS A18 WHEN A 4M ROM IS INSTALLED FOR GSM OR IS ~SCPSEL WHEN THE RCDSVD SCP IS INSTALLED FOR ON-BOARD DSVD. ROM/FLASH ROM 2M (256K X 8) [RC56 w/o GSM] 4M (512K X 8) [RC56 or RC336 w/ GSM] 1M (128K x 8) [RC336 w/o GSM or RC144] RAM 1M (128K X 8) [RC56] None (Use internal RAM [RC336 or RC144] )LJXUH  +DUGZDUH ,QWHUIDFH 6LJQDOV  3DUDOOHO +RVW ,QWHUIDFH MD213 Conexant 13 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV ~RESOUT2 ~IREQ2 ~DISEEP ~CH2CS A0OUT ~PWRDWN2 ~IO16E FUNCTION 2 CONTROLLER AND INTERFACE (OPTIONAL) DAA/GSM CTRL0*** GSMINP0*** GSMRXD*** RXDCLK*** GSMTXD*** TXDCLK*** GSM PHONE INTERFACE CELDATA** ~CELBSY** CELCLK** DAA/CEL HD0-HD7 HA0-HA15 ~IOWR ~IORD ~CE1 ~CE2 ~OE PC CARD SOCKET ~WE ~REG ~INPACK ~STSCHG ~IREQ ~WAIT SPKROUT ~IOIS16 RESET ~RESET ~READ ~WRITE A0-A18**** D0-D7 ~ROMSEL NVMDATA NVRAM (OPTIONAL) NVMCLK ~RAMSEL ~READ ~WRITE A0-A4 D0-D7 RS0-RS4 MODEM DATA PUMP (MDP) RES1 RES2 XTALI MCU CRYSTAL XTALO VDD AVDD VAA ~RESET MICRO CONTROLLER UNIT (MCUP) CLKOUT SPKRIN DPIRQ ~DPSEL RIN* TXA1* TXA2* MICM TELIN (SP Models) TELOUT (SP Models) MICV (SP Models) SPK ~RLY1 (~OH)*/CTRL0** ~RLY2 (~VOICE)*/CTRL1** ~RLY3 (~MUTE)** ~RLY4 (~CALLID)** LCS* RINGD* CELLULAR PHONE/ TELEPHONE/ TELEPHONE LINE/ TELEPHONE HANDSET/ AUDIO INTERFACE CIRCUIT CELLULAR PHONE/ TELEPHONE LINE TELEPHONE HANDSET MICROPHONE HEADPHONE/ SPEAKER CLKIN SPKMD IRQ ~CS +3.3V +3.3V +3.3V DGND, AGND NC PARIF ~WKRES ~MRES +3.3V VDD DGND MRDY READY ~SCPSEL**** ~SCPIRQ ~RESET ~CS ~IRQ1 A0-A4 D0-D7 ~READ ~WRITE EXTERNAL BUS +5V DGND, AGND +5V +5V A0-A18**** D0-D7 ~READ ~WRITE ~ROMSEL A0-A16 D0-D7 ~READ ~WRITE ~RAMSEL 1156F3-3 IF PC Card ROM/FLASH ROM 2M (256K X 8) [RC56 w/o GSM] 4M (512K X 8) [RC56 or RC336 w/ GSM] 1M (128K x 8) [RC336 w/o GSM or RC144 NOTES * WIRELINE INTERFACE ** ANALOG CELLULAR INTERFACE *** GSM INTERFACE **** A18/~SCPSEL IS A18 WHEN A 4M ROM IS INSTALLED FOR GSM OR IS ~SCPSEL WHEN THE RCDSVD SCP IS INSTALLED FOR ON-BOARD DSVD. MICIN SPKP XTLI XCLK RCDSVD SCP (R6715) LINEIN LINEOUT RAM 1M (128K X 8) [RC56] None (Use internal RAM) RC336 or RC144] )LJXUH  +DUGZDUH ,QWHUIDFH 6LJQDOV  3& &DUG ,QWHUIDFH 14 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV 5&/'5&/'DQG5&/' 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 NC NC GND NC NC NC NC NC NC NC NC NC NC NC NC NC PG3 PG2 PG1 PG0 GND ~TMIND ~WKRESOUT ~SCPSEL A17 ~RAMSEL NC NC NC NC NC ~MRES ~RES NC NC NC NC NC NC ~WRITE ~READ NC NC NC ~DTR GND XTLI VDD XTLO GND NC ~STPMODE ~DSR ~CTS ~RLSD ~DRSOUT ~AAIND ~RI ~TM ~RDL NC ~NMI ~DTRIND PD1 PD2 ~AL ~RLY3 ~RLY4 LCS PE5 PARIF ~EXTOH GND VGG DV1TP CLKOUT NC NC NC NC NC RINGD NVMDATA ~RTS DPIRQ ~TXD ~TXCLK ~RLY1 ~RLY2 ~RXCLK/~SCPIRQ 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 ~ROMSEL ~DPSEL A16 A15 A14 A13 A12 A11 A10 A9 A8 VDD A7 A6 A5 A4 A3 A2 A1 A0 TDI TDO TMS TRSTP TCK GND D7 D6 D5 D4 D3 D2 D1 D0 ~TST NVMCLK ~RXD ~DPRXD 1156F3-4 PO-MCU-Ser-128T )LJXUH  0&8 3LQ 6LJQDOV  6HULDO '7( ,QWHUIDFH  3LQ 74)3 MD213 Conexant 15 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 NC NC GND NC NC NC NC NC NC NC NC NC NC NC NC NC PG3 PG2 PG1 PG0 GND HINT ~WKRESOUT A18**/~SCPSEL*** A17 ~RAMSEL NC NC NC NC NC ~MRES ~RES NC NC NC NC NC NC ~WRITE ~READ NC NC NC ~HCS GND XTLI VDD XTLO GND NC ~STPMODE HD0 HD1 HD2 HD3 HD4 HD5 HD6 HD7 NC ~NMI HA0 HA1 CELDATA* PARIF DAA/CELL or ~EXTOH**** GND VGG * Cellular ** GSM *** RCDSVD **** Firmware option CELCLK*/GSMINP0**/~SCPIRQ ~RLY1/CTRL0* ~RLY2/CTRL1*/CTRL0** GSMRXD** ~CELBSY*/RXDCLK** ~HRD DPIRQ HA2 ~HWT DV1TP CLKOUT NC ~RLY3/CELBSY* ~RLY4 LCS NC NC NC NC RINGD NVMDATA 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 ~ROMSEL ~DPSEL A16 A15 A14 A13 A12 A11 A10 A9 A8 VDD A7 A6 A5 A4 A3 A2 A1 A0 TDI TDO TMS TRSTP TCK GND D7 D6 D5 D4 D3 D2 D1 D0 ~TST NVMCLK/TXDCLK** GSMTXD** DAA/GSM** 1156F3-5 PO-MCU-Par-128T )LJXUH  0&8 3LQ 6LJQDOV  3DUDOOHO +RVW ,QWHUIDFH  3LQ 74)3 16 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV 5&/'5&/'DQG5&/' 128 127 126 125 124 123 122 121 120 119 118 117 116 115 114 113 112 111 110 109 108 107 106 105 104 103 ~REG ~CE1 GND HA11 HA10 HA9 HA8 HA7 HA6 HA5 HA4 HA3 HA15 HA14 HA13 HA12 PG3 PG2 PG1 PG0 GND HINT READY A18**/~SCPSEL*** A17 ~RAMSEL ~OE ~WE MRDY SPKRIN RESET ~MRES POR_RC SPKROUT ~INPACK ~IREQ RINT_RC RINGIN ~STSCHG ~WRITE ~READ ~CH2CS ~IREQ2 ~PWRDWN2 PD4 GND XTLI VDD XTLO GND ~RESOUT2 PD3 HD0 HD1 HD2 HD3 HD4 HD5 HD6 HD7 ~WAIT ~NMI HA0 HA1 CELDATA* PARIF DAA/CELL or EXTOH**** GND VGG GSMRXD** ~CELBSY*/RXDCLK** * Cellular ** GSM *** RCDSVD **** Firmware option CELCLK*/GSMINP0**/~SCPIRQ ~RLY1/CTRL0* ~RLY2/CTRL1*/CTRL0** ~RLY3/CELBSY* ~RLY4 LCS A0OUT ~IO16E ~IOIS16 ~DISEEP RINGOUT NVMDATA DV1TP CLKOUT ~CE2 HA2 ~IOWR ~IORD DPIRQ 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 ~ROMSEL ~DPSEL A16 A15 A14 A13 A12 A11 A10 A9 A8 VDD A7 A6 A5 A4 A3 A2 A1 A0 TDI TDO TMS TRSTP TCK GND D7 D6 D5 D4 D3 D2 D1 D0 ~TST NVMCLK/TXDCLK** GSMTXD** DAA/GSM** 1156F3-6 PO-MCUP-128T )LJXUH  0&83 3LQ 6LJQDOV  3& &DUG ,QWHUIDFH  3LQ 74)3 MD213 Conexant 17 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED RESERVED 110 SLEEPO NOXTL RINGD CLKIN ~DSR XTLO XCLK ~DTR YCLK ~RTS GP00 GND GND VGG 144 143 142 141 140 139 138 137 136 135 134 133 132 131 130 129 128 127 126 125 122 124 123 121 120 119 118 117 116 114 115 112 113 111 D1 RESERVED D2 D3 RESERVED D4 SYCLK D5 D6 D7 RS0 RS1 PLLVDD AGND NC NC NC AGND AGND TELIN/NC* AGNDV/NC* TELOUT/NC* AVAA SPK TXA1 TXA2 VREF VC MICV/NC* RIN AGNDM ~RES2 MICM MICBIAS ~RLYB SPKMD 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 109 108 107 106 105 104 103 102 101 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 80 79 78 77 76 75 74 73 GND XTLI VDD VDD MK4 RXD IRQ ~RI NC D0 XTCLK VDD SR1IO RESERVED SR2IO SA2CLK RESERVED RESERVED SR8OUT SR8IN SR4CLK SA4CLK RESERVED RESERVED IA1CLK SA1CLK RESERVED CLKOUT SR3IN SR4IN SR3OUT SR4OUT ~RES1 MK5 GND NC RESERVED NC RESERVED VDD ~CTS TXD TDCLK ~RLSD TIRO2 SR2CLK AVDD NC AGND ~SET3V ~VRLYA/NC* ~VRLYB/NC* MSCLK MCLKIN MTXSIN AVDD VSUB GND VRXOUT/NC* MRXOUT ~RLYA GND RESERVED RESERVED VSCLK/NC* RS2 VSTROBE/NC* MCNTRLSIN MSTROBE PLLGND RS3 IASLEEP ~CS VTXSIN/NC* VCLKIN/NC* ~READ RS4 NC VCNTRLSIN/NC* ~RDCLK * NC ON NON-SP MODELS. MD212F3 PO-R6785-144T )LJXUH  0'3 3LQ 6LJQDOV  3LQ 74)3 18 Conexant ~WKRES ~WRITE MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV 5&/'5&/'DQG5&/' CLKIN RESERVED RESERVED 83 PLLGND GND PLLVDD GP00 82 D3 D2 100 99 96 95 98 97 D1 D0 87 86 94 93 92 91 90 89 88 NC VDD RESERVED RS2 RS3 RS4 ~CS ~WRITE ~READ ~RDCLK ~WKRES SR2CLK ~RLSD TDCLK TXD RESERVED RESERVED GND ~RES1 SR4OUT SR3OUT SR4IN SR3IN CLKOUT SA1CLK IA1CLK AGND TELIN/NC* TELOUT/NC* AVAA SPKR TXA1 85 84 81 GND RS1 RS0 D7 D6 D5 D4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 37 38 31 32 33 34 35 36 47 48 39 40 41 42 43 44 45 46 49 50 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 IRQ RINGD ~RI RESERVED XCLK YCLK RESERVED RESERVED RESERVED VGG RESERVED SLEEPO VDD RXD RESERVED GND XTCLK VDD SR1IO RESERVED SR2IO SA2CLK RESERVED RESERVED IASLEEP VCNTRLSIN/NC* VCLKIN/NC* VTXSIN/NC* VSCLK/NC* VRXOUT/NC* VREF VC MICV/NC* RIN ~RES2 TXA2 MICM SPKMD AGND AVDD MCNTRLSIN MCLKIN MTXSIN MSCLK GND VSTROBE/NC* MD212F5 PO-R6764-100P MSTROBE ~RLYA * NC on non-SP models. )LJXUH  0'3 3LQ 6LJQDOV  3LQ 34)3 MD213 Conexant MRXOUT AGND 19 5&/'5&/'DQG5&/' ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV RS4 RS3 RS2 RS1 RS0 VDD D7 D6 D5 D4 D3 D2 D1 D0 ~WRITE ADVSS NC NC VC VREF VSS NC RBIAS MICIN AVSS LINEIN AVDD NC NC ADVSS 100 99 98 97 96 95 94 93 92 91 90 89 88 87 86 85 84 83 82 81 NC NC NC VSS NC NC ~EN85 NC NC NC SR4OUT NC SR1IO SA1CLK IA1CLK NC NC NC NC VSS 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 VSS SR3IN NC VDD NC NC XTLO XTLI ~RESET ~SLEEPO NC NC ~IRQ NC VSS NC GPO4 GPO5 GPO6 GPO7 NC NC VDD NC NC NC NC ~READ ~CS NC NC LINEOUT SPKN SPKP NC FSYNC ICLK NC NC REFCNTL NC NC VSS ~IARESET MCLK ADVDD SIN SOUT CTRLSIN IACLK 1087F2-4 RCDSVD 100Q )LJXUH  5&'69' 6&3 3LQ 6LJQDOV 3LQ 34)3 20 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 Conexant MD213 ,QWHJUDWHG9.IOH[99ELV0RGHP'HYLFH6HWV Electrical and Environmental Specifications The current and power requirements are listed in Table 2. The absolute maximum ratings are listed in Table 3. 5&/'5&/'DQG5&/' 7DEOH  &XUUHQW DQG 3RZHU 5HTXLUHPHQWV Current (ID) Mode MCU/MCUP Normal Mode Sleep Mode MDP Normal Mode Sleep Mode SCP Normal Mode Sleep Mode Notes: 1. 2. 3. 4. Test conditions: Operating Voltage: Input Ripple: 110 10 120 — 550 50 75 10 84 — 250 33 50 3 60 — 165 10 Typical Current (mA) Maximum Current (mA) Power (PD) Typical Power (mW) Maximum Power (mW) 200 — f = 28.224 MHz 300 — fIN = 56.448 MHz 630 — Notes fIN = 28.224 MHz MCU and MDP: VCC = +3.3 VDC for typical values; VCC = +3.6 VDC for maximum values; SCP: VCC = +5.0 VDC for typical values; VCC = +5.25 VDC for maximum values. MCU and MDP: +3.3V ± 0.3V; SCP: +5V ± 5%. ≤ 0.1 Vpeak-peak. f = Internal frequency. 7DEOH  $EVROXWH 0D[LPXP 5DWLQJV Parameter Supply Voltage Input Voltage Operating Temperature Range Storage Temperature Range Analog Inputs Voltage Applied to Outputs in High Impedance (Off) State DC Input Clamp Current DC Output Clamp Current Static Discharge Voltage (25°C) Latch-up Current (25°C) * VGG = +5V ± 5% or +3.3V ± 0.3 V Symbol VDD VIN TA TSTG VIN VHZ IIK IOK VESD ITRIG Limits -0.5 to +4.6 -0.5 to (VGG +0.5)* -0 to +70 -55 to +125 -0.3 to (VAA + 0.3) -0.5 to (VGG + 0.5)* ±20 ±20 ±2500 ±400 V V °C °C V V mA mA V mA Units MD213 Conexant 21 Further Information literature@conexant.com 1-800-854-8099 (North America) 33-14-906-3980 (International) Web Site www.conexant.com Hong Kong Phone: (852) 2827 0181 Fax: (852) 2827 6488 India Phone: (91 11) 692 4780 Fax: (91 11) 692 4712 Korea Phone: (82 2) 565 2880 Fax: (82 2) 565 1440 World Headquarters Conexant Systems, Inc. 4311 Jamboree Road P. O. Box C Newport Beach, CA 92658-8902 Phone: (949) 483-4600 Fax: (949) 483-6375 U.S. Florida/South America Phone: (813) 799-8406 Fax: (813) 799-8306 U.S. Los Angeles Phone: (805) 376-0559 Fax: (805) 376-8180 U.S. Mid-Atlantic Phone: (215) 244-6784 Fax: (215) 244-9292 U.S. North Central Phone: (630) 773-3454 Fax: (630) 773-3907 U.S. Northeast Phone: (978) 692-7660 Fax: (978) 692-8185 U.S. Northwest/Pacific West Phone: (408) 249-9696 Fax: (408) 249-7113 U.S. South Central Phone: (972) 733-0723 Fax: (972) 407-0639 U.S. Southeast Phone: (770) 246-8283 Fax: (770) 246-0018 U.S. Southwest Phone: (949) 483-9119 Fax: (949) 483-9090 Europe Headquarters Conexant Systems France Les Taissounieres B1 1680 Route des Dolines BP 283 06905 Sophia Antipolis Cedex France Phone: (33 4) 93 00 33 35 Fax: (33 4) 93 00 33 03 Europe Central Phone: (49 89) 829 1320 Fax: (49 89) 834 2734 Europe Mediterranean Phone: (39 02) 9317 9911 Fax: (39 02) 9317 9913 Europe North Phone: (44 1344) 486 444 Fax: (44 1344) 486 555 Europe South Phone: (33 1) 41 44 36 50 Fax: (33 1) 41 44 36 90 Middle East Headquarters Conexant Systems Commercial (Israel) Ltd. P. O. Box 12660 Herzlia 46733, Israel Phone: (972 9) 952 4064 Fax: (972 9) 951 3924 Japan Headquarters Conexant Systems Japan Co., Ltd. Shimomoto Building 1-46-3 Hatsudai, Shibuya-ku, Tokyo 151-0061 Japan Phone: (81 3) 5371-1567 Fax: (81 3) 5371-1501 APAC Headquarters Conexant Systems Singapore, Pte. Ltd. 1 Kim Seng Promenade Great World City #09-01 East Tower Singapore 237994 Phone: (65) 737 7355 Fax: (65) 737 9077 Australia Phone: (61 2) 9869 4088 Fax: (61 2) 9869 4077 China Phone: (86 2) 6361 2515 Fax: (86 2) 6361 2516 Taiwan Headquarters Conexant Systems, Taiwan Co., Ltd. Room 2808, 333 International Trade Building Keelung Road, Section 1 Taipei 110, Taiwan, ROC Phone: (886 2) 2720 0282 Fax: (886 2) 2757 6760 SO990121