73K224BL V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
Simplifying System Integration™
DATA SHEET
DESCRIPTION
The 73K224BL is a highly integrated single-chip modem IC which provides the functions needed to construct a V.22bis compatible modem, capable of 2400 bit/s full-duplex operation over dial-up lines. The 73K224BL is an enhancement of the 73K224L singlechip modem, which adds the hybrid hook switch control, and driver to the 73K224L. The 73K224BL integrates analog, digital, and switched-capacitor array functions on a single chip, offering excellent performance and a high level of functional integration in a 32-Lead PLCC package. The 73K224BL operates from a single +5 V supply for low power consumption. The 73K224BL is designed to appear to the systems designer as a microprocessor peripheral, and will easily interface with popular single-chip microprocessors (80C51 typical) for control of modem functions through its 8-bit multiplexed address/data bus or via an optional serial control bus. An ALE control simplifies address demultiplexing. Data communications normally occur through a separate serial port. (continued)
FEATURES
• • • • • • • • •
Includes features of 73K224L single-chip modem On chip 2-wire/4-wire hybrid driver and off hook relay buffer driver One-chip multi-mode V.22bis/V.22/V.21 and Bell 212A/103 compatible modem data pump FSK (300 bit/s), DPSK (600, 1200 bit/s), or QAM (2400 bit/s) encoding Software compatible with other TERIDIAN Semiconductor K-Series one-chip modems Interfaces directly with standard processors (80C51 typical) Parallel or serial bus for control Selectable internal buffer/debuffer scrambler/descrambler functions and micro-
All asynchronous and synchronous operating modes (internal, external, slave) (continued)
BLOCK DIAGRAM
DTMF, ANSWER, GUARD & CALLING TONE GENERATOR FSK MODULATOR
OH
BUFFER
SCRAMBLER
DI-BIT/ QUAD-BIT ENCODER
8-BIT µP BUS INTERFACE
FIR PULSE SHAPER
QAM/ DPSK MODULATOR
FILTER EQUALIZER FILTER ATTENUATOR
TXA1 2W/4W HYBRID
DI-BIT/ QUAD-BIT DECODER D IGITAL SIGNAL PROCESSOR RECEIVE FUNCTIONS FILTER
TXA2 RXA
DEBUFFER
DESCRAMBLER
A/D
EQUALIZER FILTER FILTER FIXED DEMODULATOR AGC
TXD RXD
SERIAL INTERFACE
GAIN BOOST
TONE DETECTION
Page: 1 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET DESCRIPTION (continued)
The 73K224BL is pin and software compatible with the 73K222BL, allowing system upgrades with a single component change. The 73K224BL is designed to be a complete V.22bis compatible modem on a chip. The complete modem requires only the addition of the phone line interface, a control microprocessor, and RS-232 level converter for a typical system. Many functions were included to simplify implementation of typical modem designs. In addition to the basic 2400 bit/s QAM, 600/1200 bit/s DPSK and 300 bit/s FSK modulator/demodulator sections, the device also includes synch/asynch converters, scrambler/descrambler, call progress tone detect, DTMF tone generator capabilities and handshake pattern detectors. Test features such as analog loop, digital loop, and remote digital loopback are supported. Internal pattern generators are also included for self-testing.
FEATURES (continued)
• • • Adaptive equalization for optimum performance over all lines Programmable transmit attenuation (16 dB, 1 dB steps), selectable receive boost (+18 dB) Call progress, carrier, answer tone, unscrambled mark, S1, and signal quality monitors DTMF, answer and guard tone generators Test modes available: ALB, DL, RDL, mark, space, alternating bit, S1 pattern generation and detection CMOS technology for low power consumption (typically 100 mW @ 5 V) with power-down mode (15 mW @ 5 V) TTL and CMOS compatible inputs and outputs
• •
•
•
FUNCTIONAL DESCRIPTION
HYBRID AND RELAY DRIVER To make designs more cost effective and space efficient, the 73K224BL includes the 2-wire to 4-wire hybrid with sufficient drive to interface directly to the telecom coupling transformers. In addition, an off hook relay driver with 30mA drive capability is also included to allow use of commonly available mechanical telecom relays. QAM MODULATOR/DEMODULATOR The 73K224BL encodes incoming data into quad-bits represented by 16 possible signal points with specific phase and amplitude levels. The base-band signal is then filtered to reduce intersymbol interference on the band limited telephone network. The modulator transmits this encoded data using either a 1200 Hz (originate mode) or 2400 Hz (answer mode) carrier. The demodulator, although more complex, essentially reverses this procedure while also recovering the data clock from the incoming signal. Adaptive equalization corrects for varying line conditions by automatically changing filter parameters to compensate for line characteristics. DPSK MODULATOR/DEMODULATOR The 73K224BL modulates a serial bit stream into di-bit pairs that are represented by four possible phase
Page: 2 of 33
shifts as prescribed by the Bell 212A/V.22 standards. The base-band signal is then filtered to reduce intersymbol interference on the bandlimited 2-wire PSTN line. Transmission occurs on either a 1200 Hz (originate mode) or 2400 Hz carrier (answer mode). Demodulation is the reverse of the modulation process, with the incoming analog signal eventually decoded into di-bits and converted back to a serial bit stream. The demodulator also recovers the clock, which was encoded into the analog signal during modulation. Demodulation occurs using either a 1200 Hz carrier (answer mode or ALB originate mode) or a 2400 Hz carrier (originate mode or ALB answer mode). Adaptive equalization is also used in DPSK modes for optimum operation with varying line conditions. FSK MODULATOR/DEMODULATOR The FSK modulator produces a frequency modulated analog output signal using two discrete frequencies to represent the binary data. The Bell 103 standard frequencies of 1270 and 1070 Hz
FUNCTIONAL DESCRIPTION (continued)
(originate mark and space) and 2225 and 2025 Hz (answer mark and space) are used when this mode is selected. V.21 mode uses 980 and 1180 Hz (originate, mark and space) or 1650 and 1850
Rev 7.1
© 2005, 2008 TERIDIAN Semiconductor Corporation
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
Hz (answer, mark and space). Demodulation involves detecting the received frequencies and decoding them into the appropriate binary value. The rate converter and scrambler/descrambler are automatically bypassed in the FSK modes. PASSBAND FILTERS AND EQUALIZERS High and low band filters are included to shape the amplitude and phase response of the transmit and receive signals and provide compromise delay equalization and rejection of out-of-band signals. Amplitude and phase equalization are necessary to compensate for distortion of the transmission line and to reduce intersymbol interference in the band limited receive signal. The transmit signal filtering corresponds to a 75% square root of raised Cosine frequency response characteristic. ASYNCHRONOUS MODE The asynchronous mode is used for communication with asynchronous terminals which may communicate at 600,1200, or 2400 bit/s +1%, -2.5% even though the modem’s output is limited to the nominal bit rate ±.01% in DPSK and QAM modes. When transmitting in this mode the serial data on the TXD input is passed through a rate converter which inserts or deletes stop bits in the serial bit stream in order to output a signal that is the nominal bit rate ±.01%. This signal is then routed to a data scrambler and into the analog modulator where quad-bit/di-bit encoding results in the output signal. Both the rate converter and scrambler can be bypassed for handshaking, and synchronous operation as selected. Received data is processed in a similar fashion except that the rate converter now acts to reinsert any deleted stop bits and output data to the terminal at no greater than the bit rate plus 1%. An incoming break signal (low through two characters) will be passed through without incorrectly inserting a stop bit. The synch/asynch converter also has an extended overspeed mode, which allows selection of an output overspeed range of either +1% or +2.3%. In the extended overspeed mode, stop bits are output at 7/8 rising edge of TXCLK the normal width. Both the synch/asynch rate converter and the data descrambler are automatically bypassed in the FSK modes. SYNCHRONOUS MODE Synchronous operation is possible only in the QAM or DPSK modes. Operation is similar to that of the asynchronous mode except that data must be synchronized to a provided clock and no variation in data transfer rate is allowable. Serial input data appearing at TXD must be valid on the rising edge of TXCLK. TXCLK is an internally derived 1200 or 2400 Hz signal in internal mode and is connected internally to the RXCLK pin in slave mode. Receive data at the RXD pin is clocked out on the falling edge of RXCLK. The asynch/synch converter is bypassed when synchronous mode is selected and data is transmitted at the same rate as it is input. PARALLEL BUS CONTROL INTERFACE MODE Eight 8-bit registers are provided for control, option select, and status monitoring. These registers are addressed with the AD0, AD1, and AD2 multiplexed address lines (latched by ALE) and appear to a control microprocessor as seven consecutive memory locations. Six control registers are read/write memory. The detect and ID registers are read only and cannot be modified except by modem response to monitored parameters.
Page: 3 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
SERIAL CONTROL INTERFACE MODE The serial Command mode allows access to the 73K224BL control and status registers via a serial control port. In this mode the AD0, AD1, and AD2 lines provide register addresses for data passed through the AD7 (DATA) pin under control of the RD and WR lines. A read operation is initiated when the RD line is taken low. The next eight cycles of EXCLK will then transfer out eight bits of the selected address location LSB first. A write takes place by shifting in eight bits of data LSB first for eight consecutive cycles of EXCLK. WR is then pulsed low and data transfer into the selected register occurs on the rising edge of WR. DTMF GENERATOR The DTMF generator controls the sending of the sixteen standard DTMF tone pairs. The tone pair sent is determined by selecting transmit DTMF (bit D4) and the 4 DTMF bits (D0-D3) of the Tone Register. Transmission of DTMF tones from TXA is gated by the transmit enable bit of CR0 (bit D1) as with all other analog signals.
Page: 4 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET PIN DESCRIPTION
POWER NAME GND VDD VREF ISET PIN 1 16 31 28 TYPE I I O I DESCRIPTION System ground Power supply input, 5 V ±10% (73K224BL). Bypass with 0.1 and 22 µF capacitors to GND. An internally generated reference voltage. Bypass with 0.1 µF capacitor to ground. Chip current reference. Sets bias current for op-amps. The chip current is set by connecting this pin to VDD through a 2 MΩ resistor. ISET should be bypassed to GND with a 0.1 µF capacitor.
PARALLEL MICROPROCESSOR CONTROL INTERFACE MODE ALE AD0-AD7 CS 13 5-12 23 I I/O I ADDRESS LATCH ENABLE: The falling edge of ALE latches the address on AD0-AD2 and the chip select on CS. ADDRESS/DATA BUS: These bi-directional tri-state multiplexed lines carry information to and from the internal registers. CHIP SELECT: A low on this pin during the falling edge of ALE allows a read cycle or a write cycle to occur. AD0-AD7 will not be driven and no registers will be written if CS (latched) is not active. The state of CS is latched on the falling edge of ALE. OUTPUT CLOCK: This pin is selectable under processor control to be either the crystal frequency (for use as a processor clock) or 16 times the data rate for use as a baud rate clock in DPSK modes only. The pin defaults to the crystal frequency on reset. INTERRUPT: This open drain output signal is used to inform the processor that a detect flag has occurred. The processor must then read the Detect Register to determine which detect triggered the interrupt. INT will stay low until the processor reads the detect register or does a full reset. READ: A low requests a read of the 73K224BL internal registers. Data can not be output unless both RD and the latched CS are active or low. RESET: An active high signal on this pin will put the chip into an inactive state. All Control Register bits (CR0, CR1, tone) will be reset. The output of the CLK pin will be set to the crystal frequency. An internal pull-down resistor permits power-on-reset using a capacitor to VDD.
CLK
2
O
INT
20
O
RD
15
I
RESET
30
I
Page: 5 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
PARALLEL MICROPROCESSOR INTERFACE (continued) NAME WR PIN 14 TYPE I DESCRIPTION WRITE: A low on this informs the 73K224BL that data is available on AD0-AD7 for writing into an internal register. Data is latched on the rising edge of WR. No data is written unless both WR and the latched CS are low.
SERIAL MICROPROCESSOR CONTROL INTERFACE MODE NAME AD0-AD2 PIN 5-7 TYPE I DESCRIPTION REGISTER ADDRESS SELECTION: These lines carry register addresses and should be valid during any read or write operation. SERIAL CONTROL DATA: Data for a read/write operation is clocked in or out on the falling edge of the EXCLK pin. The direction of data flow is controlled by the RD pin. RD low outputs data. RD high inputs data. READ: A low on this input informs the 73K224BL that data or status information is being read by the processor. The falling edge of the RD signal will initiate a read from the addressed register. The RD signal must continue for eight falling edges of EXCLK in order to read all eight bits of the referenced register. Read data is provided LSB first. Data will not be output unless the RD signal is active. WRITE: A low on this input informs the 73K224BL that data or status information has been shifted in through the DATA pin and is available for writing to an internal register. The normal procedure for a write is to shift in data LSB first on the DATA pin for eight consecutive falling edges of EXCLK and then to pulse WR low. Data is written on the rising edge of WR.
DATA (AD7)
12
I/O
RD
15
I
WR
14
I
NOTE:
The serial control mode is provided by tying ALE high and CS low. In this configuration AD7 becomes DATA and AD0, AD1 and AD2 become the register address.
Page: 6 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
DTE USER NAME EXCLK PIN 22 TYPE I DESCRIPTION EXTERNAL CLOCK: This signal is used in synchronous transmission when the external timing option has been selected. In the external timing mode the rising edge of EXCLK is used to strobe synchronous DPSK transmit data applied to on the TXD pin. Also used for serial control interface. RECEIVE CLOCK: The falling edge of this clock output is coincident with the transitions in the serial received data output. The rising edge of RXCLK can be used to latch the valid output data. RXCLK will be valid as long as a carrier is present. RECEIVED DATA OUTPUT: Serial receive data is available on this pin. The data is always valid on the rising edge of RXCLK when in synchronous mode. RXD will output constant marks if no carrier is detected. TRANSMIT CLOCK: This signal is used in synchronous transmission to latch serial input data on the TXD pin. Data must be provided so that valid data is available on the rising edge of the TXCLK. The transmit clock is derived from different sources depending upon the synchronization mode selection. In internal mode the clock is generated internally. In external mode TXCLK is phase locked to the EXCLK pin. In slave mode TXCLK is phase locked to the RXCLK pin. TXCLK is always active. TRANSMIT DATA INPUT: Serial data for transmission is applied on this pin. In synchronous modes, the data must be valid on the rising edge of the TXCLK clock. In asynchronous modes (1200/600 bit/s or 300 baud) no clocking is necessary. DPSK data must be 1200/600 bit/s +1%, -2.5% or +2.3%, -2.5 % in extended over speed mode.
RXCLK
26
O
RXD
25
O
TXCLK
21
O
TXD
24
I
.
Page: 7 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET PIN DESCRIPTION (continued)
ANALOG INTERFACE AND OSCILLATOR NAME RXA TXA1 / TXA2 PIN 32 18 / 17 TYPE I O DESCRIPTION Received modulated analog signal input from the telephone line interface. Transmit Analog (differential outputs): These pins provide the analog output signals to be transmitted to the telephone line. The drivers will differentially drive the impedance of the line transformer and the line matching resistor. An external hybrid can also be built using TXA1 as a single ended transmit signal. These pins are for the internal crystal oscillator requiring a 11.0592 MHz parallel mode crystal. Load capacitors should be connected from XTL1 and XTL2 to ground. XTL2 can also be driven from an external clock. OFF-HOOK RELAY DRIVER: This signal is an open drain output capable of sinking 30mA and is used for controlling a relay. The output is the complement of the OH register bit in the ID Register.
XTL1 / XTL2
3/4
I
OH
27
O
.
Page: 8 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
REGISTER ADDRESS TABLE
ADDRESS REGISTER AD2 - AD0 D7 D6 D5 DATA BIT NUMBER D4 D3 D2 D1 D0
CONTROL REGISTER 0
CR0
000
MODULATION OPTION
MODULATION TYPE 1
MODULATION TYPE 0
TRANSMIT MODE 2
TRANSMIT MODE 1
TRANSMIT MODE 0
TRANSMIT ENABLE
ORIGINATE/ ANSWER
QAM: 0 = 2400 BIT/S DPSK: 0=1200 BIT/S 1 = 600 BIT/S FSK: 0 = 103 MODE 1 = V.21
10=QA, 00=DPSK 01=FSK
0000 = PWR DOWN 0001 = INT SYNCH 0010 = EXT SYNCH 0011 = SLAVE SYNCH 0100 = ASYNCH 8 BITS/CHAR 0101 = ASYNCH 9 BITS/CHAR 0110 = ASYNCH 10 BITS/CHAR 0111 = ASYNCH 11 BITS/CHAR 1X00 = FSK ENABLE DETECT INTERRUPT BYPASS SCRAMBLER CLK CONTROL
0 = ANSWER 0 = DISABLE TXA OUTPUT 1 = ORIGINATE 1 = ENABLE TXA OUTPUT
CONTROL REGISTER 1
CR1
001
TRANSMIT PATTERN 1
TRANSMIT PATTERN 0
RESET
TEST MODE 1
TEST MODE 0
00 = TX DATA 01 = TX ALTERNATE (DOTTING) 10 = TX MARK 11 = TX SPACE
0 = DISABLE 1 = ENABLE
0 = NORMAL 0 = XTAL 0 = NORMAL 1 = BYPASS 1 = 16 X DATA 1 = RESET SCRAMBLER RATE OUTPUT AT CLK PIN IN QAM/DPSK MODE ONLY UNSCR. MARKS DETECT CARRIER DETECT ANSWER TONE DETECT
00 = NORMAL 01 = ANALOG LOOPBACK 10 = REMOTE DIGITAL LOOPBACK 11 = LOCAL DIGITAL LOOPBACK CP TONE DETECT SIGNAL QUALITY INDICATOR 0=GOOD 1=BAD
DETECT REGISTER READ ONLY
DR
010
RECEIVE LEVEL INDICATOR
S1 PATTERN DETECT
RECEIVE DATA
0=SIGNAL 0=NOT PRESENT OUTPUTS BELOW 1=PATTERN RECEIVED THRESHOLD FOUND DATA STREAM 1=ABOVE THRESHOLD TONE CONTROL REGISTER RXD OUTPUT CONTROL RXD PIN 0 = NORMAL 1 = OPEN TRANSMIT GUARD/ TONE 0 = OFF 1 = ON TRANSMIT ANSWER TONE 0 = OFF 1 = ON TRANSMIT DTMF
0 = CONDITION NOT DETECTED 1 = CONDITION DETECTED
TR
011
DTMF3
DTMF2/ 4W/FDX
DTMF1/ EXTENDED OVERSPEED
DTMF0/ GUARD/ ANSWER
0 = DATA CARRIER 1=TX DTMF
4 BIT CODE FOR 1 OF 16 DUAL TONE COMBINATIONS
0 = 1800 Hz G.T. 2225 Hz ANNS TONE GENERATED 1 = 550 Hz ANS TONE 2100 Hz ANS TONE GENERATED & DETECTED (V.21, V.22)
CONTROL REGISTER 2
CR2
100
0
SPECIAL REGISTER ACCESS
CALL INTIALIZE
TRANSMIT S1
16 WAY
RESET DSP
TRAIN INHIBIT
EQUALIZER ENABLE
0=ACCESS CR3 0=DSP IN 0=NORMAL 1=ACCESS DOTTING DEMOD MODE SPECIAL 1=S1 1=DSP IN CALL REGISTER PROGRESS MODE RECEIVE GAIN BOOST
0=RX=TX 1=RX=16WAY TX=4WAY IN DPSK
0=DSP INACTIVE 1=DSP ACTIVE
0=ADAPT EQ ACTIVE 1=ADAPT EQ FROZEN
0=ADAPT EQ IN RESET STATE 1=ADAPT EQ ACTIVE
CONTROL REGISTER 3
CR3
101
TXDALT
TRISTATE TX/RXCLK
OH
TRANSMIT ATTEN. 3
TRANSMIT ATTEN. 2
TRANSMIT ATTEN. 1
TRANSMIT ATTEN. 0
ALTERNATE TRANSMIT DATA SOURCE
0=NORMAL 1=TRISTATE
0=OH RELAY 0=NO BOOST DRIVER OPEN 1=18 dB BOOST 1=OH OPEN DRAIN DRIVER PULLING LOW RX UNSCR. DATA TXD SOURCE
0000-1111,SETS TRANSMIT ATTENUATOR 16 dB RANGE DEFAULT=0100 -10 dBm0
SPECIAL REGISTER
SR
101
0
TX BAUD CLOCK
0
SQ SELECT 1
SQ SELECT 0
0
OUTPUTS TXBAUD CLOCK
OUTPUTS UNSCR. DATA
0=TXD PIN 1=TXALT BIT
00 10 -5 BER 01 10 -6 BER 10 10 -4 BER 11 10 -3 BER
ID REGISTER READ ONLY
10
110
1
1
0
0
X
X
X
X
00XX=73K212AL, 322L, 321L 01XX=73K221AL, 302L 10XX=73K222AL, 222BL 1100=73K224L, 224BL 1110=73K324L, 324BL
0 = Only write zeros to these locations X = Undefined, mask in software
Page: 9 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
CONTROL REGISTER 0
CR0 ADDR 000 D7 MODUL. OPTION D6 MODUL. TYPE 1 D5 MODUL. TYPE 0 D4 TRANSMIT MODE 2 D3 TRANSMIT MODE 1 D2 TRANSMIT MODE 0 D1 TRANSMIT ENABLE D0 ANSWER/ ORIGINATE
BIT D0
NAME Answer/ Originate
CONDITION 0 1
D1
Transmit Enable
0 1
DESCRIPTION Selects answer mode (transmit in high band, receive in low band). Selects originate mode (transmit in low band, receive in high band). Disables transmit output at TXA1 & TXA2 Enables transmit output at TXA1 & TXA2 Note: Transmit enable must be set to 1 to allow activation of answer tone or DTMF. Selects Power down mode. All functions disabled except digital interface.. Internal synchronous mode in this mode TXCLK is an internally derived 600,1200 or 2400 Hz signal. Serial input data appearing at TXD must be valid on the rising edge of TXCLK. Receive data is clocked out of RXD on the falling edge of RXCLK. External synchronous mode. Operation is identical to internal synchronous, but TXCLK is connected internally to EXCLK pin, and a 600, 1200 or 2400 Hz clock must be supplied externally. Slave synchronous mode Same operation as other synchronous modes TXCLK is connected internally to the RXCLK pin in this mode. Selects a synchronous mode 8 bits/character (1 start bit, 6 data bits, 1 stop bit). Selects asynchronous mode - 9 bits/character (1 start bit, 7 data bits, 1 stop bit). Selects asynchronous mode - 10 bits/character (1 start bit, 8 data bits, 1 stop bit). Selects asynchronous mode - 11 bits/character (1 start bit, 8 data bits, 1 stop bit) or 2 stop bits).. Selects FSK operation. QAM DPSK FSK
D5,D4 D3,D2
Transmit Mode
D5 D4 D3 D2 0000 0 0 0 1
0
0
1
0
0
0
1
1
0 0 0 0 1 D6,D5 Modulation Type
1 1 1 1
0 0 1 1
0 1 0 1 0
X0 D6 D5 1 0 00 01
Page: 10 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
CONTROL REGISTER 0 (continued)
CR0 ADDR 000 D7 MODUL. OPTION D6 MODUL. TYPE 1 D5 MODUL. TYPE 0 D4 TRANSMIT MODE 2 D3 TRANSMIT MODE 1 D2 TRANSMIT MODE 0 D1 TRANSMIT ENABLE D0 ANSWER/ ORIGINATE
BIT D7
NAME Modulation Option
CONDITION 0 1
DESCRIPTION QAM selects 2400 bit/s. DPSK selects 1200 bit/s. selects 103 mode. DPSK selects 600 bit/s. FSK selects V.21 mode. FSK
CONTROL REGISTER 1
CR1 ADDR 001 D7 TRANSMIT PATTERN 1 D6 TRANSMIT PATTERN 0 D5 ENABLE DETECT INTERRUPT D4 BYPASS SCRAMBLER D3 CLOCK CONTROL D2 RESET D1 TEST MODE 1 D0 TEST MODE 0
BIT D0, D1
NAME Test Mode
CONDITION D1 0 0 D0 0 1
DESCRIPTION Selects normal operating mode Analog loopback mode. Loops the transmitted analog signal back to the receiver, and causes the receiver to use the same carrier frequency as the transmitter. To squelch the TXA pin, transmit enable bit as well as Tone Register bit D2 must be low. Selects remote digital loopback. Received data is looped back to transmit data internally, and RXD is forced to a mark. Data on TXD is ignored. Selects local digital loopback. Internally loops TXD back to RXD and continues to transmit data carrier at TXA pin Selects Normal Operations Resets modem to power-down state. All Control Register bits (CR0, CR1, CR2, CR3 and tone) are reset to zero except CR3 bit D2. The output of the clock pin will be set to the crystal frequency. Selects 11.0592 MHz crystal echo output at CLK pin Selects 16 times the data rate output at CLK pin in DPSK/QAM modes only.
1
0
1 D2 Reset 0 1
1
D3
Clock Control
0 1
Page: 11 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
CONTROL REGISTER 1 (continued)
CR1 ADDR 001 D7 TRANSMIT PATTERN 1 D6 TRANSMIT PATTERN 0 D5 ENABLE DETECT INTERRUPT D4 BYPASS SCRAMBLER D3 CLOCK CONTROL D2 RESET D1 TEST MODE 1 D0 TEST MODE 0
BIT D4
NAME Bypass Scrambler
CONDITION 0 1
DESCRIPTION Selects normal operation. DPSK and QAM data is passed through scrambler. Selects Scrambler bypass. Bypass DPSK and QAM data is route around scrambler in the transmit path. Disables interrupt at INT pin. All interrupts are normally disabled in power-down mode. Enables INT output. An interrupt will be generated with a change in status of DR bits D1- D4 and D6. The answer tone and call progress detect interrupts are masked when the TX enable bit is set. Carrier detect is masked when TXDTMF is activated. All interrupts will be disabled if the device is in power-down mode.
D5
Enable Detect Interrupt
0 1
D7 D6 D6, D7 Transmit Pattern 0 0 0 1 Selects normal data transmission as controlled by the state of the TXD pin. Selects an alternating mar/space transmit pattern for modem testing and handshaking. Also used for S1 pattern generation (see CR2 bit D4). Selects a constant mark transmit pattern. Selects a constant space transmit pattern.
1 1 DETECT REGISTER
DR ADDR 010 D7 RECEIVE LEVEL INDICATOR D6 S1 PATTERN DETECT D5
0 1
D4 UNSCR. MARK DETECT
D3 CARR. DETECT
D2 ANSWER TONES DETECT
D1 CALL PROG. DETECT
D0 SIGNAL QUALITY INDICATOR
RECEIVE DATA
BIT D0
NAME Signal Quality Indicator
CONDITION 0 1 0 1
DESCRIPTION Indicates normal received signal. Indicates low received signal quality (above average error rate). Interacts with Special Register bits D2, D1. No call progress tone detected. Indicates presence of call progress tones. The call progress detection circuitry is activated by energy in the normal 350 to 620 Hz call progress bandwidth.
D1
Call Progress Detect
Page: 12 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
DETECT REGISTER (continued) DR
ADDR 010
D7
RECEIVE LEVEL INDICATOR
D6
S1 PATTERN DETECT
D5
RECEIVE DATA
D4
UNSCR. MARK DETECT
D3
CARR. DETECT
D2
ANSWER TONES DETECT
D1
CALL PROG. DETECT
D0
SIGNAL QUALITY INDICATOR
BIT D2
NAME Answer Tone Received
CONDITION 0 1
DESCRIPTION No answer tone detected. In call init mode, indicates detection of 2225 Hz answer tone in Bell mode (TR bit D0 = 0) or 2100 Hz if in CCITT mode (TR bit D0 = 1). The device must be in originate mode for detection of answer tone. Both answer tones are detected in demodulation mode. No carrier detected in the receive channel. Indicated carrier has been detected in the received channel. No unscrambled mark. Indicates detection of unscrambled marks in the received data. Should be time qualified by software. Continuously outputs the received data stream. This data is the same as that output on the RXD pin, but it is not disabled when RXD is tri-stated.
D3
Carrier Detect
0 1
D4
Unscrambled Mark Detect
0 1
D5
Receive Data
D6
S1 Pattern Detect
0 1
No S1 pattern being received. S1 pattern detected. Should be time qualified by software. S1 pattern is defined as a double di-bit (001100..) unscrambled 1200 bit/s DPSK signal. Pattern must be aligned with baud clock to be detected. Received signal level below threshold, (typical ≈ -25 dBm0); can use receive gain boost (+18 dB). Received signal above threshold.
D7
Receive Level Indicator
0 1
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
TONE REGISTER
TR ADDR 011 D7 RXD OUTPUT CONTROL D6 TRANSMIT GUARD TONE D5 TRANSMIT ANSWER TONE D4 TRANSMIT DTMF D3 DTMF 3 D2 DTMF 2/ 4-WIRE FDX D1 DTMF 1/ EXTENDED OVERSPEED D0 DTMF 0/ ANSWER GUARD
BIT D0
NAME DTMF 0/ Answer/ Guard Tone
CONDITION D6 D5 D4 D0 X X X 1 1 X 1 1 0 0 D4 0 0 D4 1 0 0 0 0 D1 0 1 D2 0 1 X 0 1 0 1
DESCRIPTION D0 interacts with bits D6, D5, and D4 as shown Transmit DTMF tones must be in DPSK or Bell 103 mode. Select Bell mode answer tone. Interacts with DR bit D2 and TR bit D5. Select CCITT mode answer tone. Interacts with DR bit D2 and TR bit D5. Select 1800 Hz guard tone. Select 550 Hz guard tone. D1 interacts with D4 as shown. Asynchronous QAM or DPSK +1% -2.5%. (normal) Asynchronous QAM or DPSK +2.3% -2.5%. (extended overspeed) Selects 2-wire duplex or half duplex D2 selects 4-wire full duplex in the modulation mode selected. The receive path corresponds to the receive mode selected by the ANS/ORIG bit CR0 D0 in terms of high or low band selection. The transmitter is in the same band as the receiver, but does not have magnitude filtering or equalization on its signal as in the receive path.
D1
DTMF 1/ Extended Overspeed
D2
DTMF 2/ 4 Wire FDX
0 0
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
TONE REGISTER
TR ADDR 011 D7 RXD OUTPUT CONTROL D6 TRANSMIT GUARD TONE D5 TRANSMIT ANSWER TONE D4 TRANSMIT DTMF D3 DTMF 3 D2 DTMF 2/ 4-WIRE FDX D1 DTMF 1/ EXTENDED OVERSPEED D0 DTMF 0/ ANSWER GUARD
BIT D3, D2, D1, D0
NAME DTMF 3, 2, 1, 0
CONDITION
DESCRIPTION D0 interacts with bits D6, D5, and D4 as shown Programs 1 of 16 DTMF tone pairs that will be transmitted when TX DTMF and TX enable bit (CR0, bit D1) is set. Tone encoding is shown below: KEYBOARD EQUIVALENT 1 2 3 4 5 6 7 8 9 0 * # A B C D Disable DTMF. LOW 697 697 697 770 770 770 852 852 852 941 941 941 697 770 852 941 TONES HIGH 1209 1336 1477 1209 1336 1477 1209 1336 1477 1336 1209 1477 1633 1633 1633 1633
DTMF CODE D3 D2 D1 D0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1 0 D4 TX DTMF (Transmit DTMF) 0 0 0 1 1 1 1 0 0 0 0 1 1 1 1 0 0 1 0 1 1 0 0 1 1 0 0 1 1 0 0 1 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1 0
Activate DTMF. The selected DTMF tones are transmitted continuously when this bit is high. TX DTMF overrides all other transmit functions. NOTE: DTMF0-DTMF2 should be set to an appropriate state after DTMF dialing to avoid unintended operation.
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
TONE REGISTER (continued)
TR ADDR 011 D7 RXD OUTPUT CONTROL D6 TRANSMIT GUARD TONE D5 TRANSMIT ANSWER TONE D4 TRANSMIT DTMF D3 DTMF 3 D2 DTMF 2/ 4-WIRE FDX D1 DTMF 1/ EXTENDED OVERSPEED D0 DTMF 0/ ANSWER GUARD
BIT
NAME
CONDITION D5 D4 D0
DESCRIPTION D5 interacts with bits D4 and D0 as shown. Also interacts with DR bit D2 in originate mode (see Detect Register description). Disables answer tone generator. In answer mode, a Bell 2225 Hz tone is transmitted continuously when the transmit enable bit is set. Likewise, a CCITT 2100 Hz answer tone is transmitted. Disables guard tone generator. Enables guard tone generator (see D0 for selection of guard tones). Bit D4 must be zero. Enables RXD pin. Receive data will be output on RXD. Disables RXD pin. The RXD pin reverts to a high impedance with internal weak pull-up resistor.
D5
Transmit Answer Tone
0 1 1
0 0 0 0 1 0 1
X 0 1
D6
Transmit Guard Tone
D7
RXD Output Control
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
CONTROL REGISTER 2
CR2 ADDR 100 D7 0 D6 SPEC REG ACCESS D5 CALL INIT D4 TRANSMIT S1 D3 16 WAY D2 RESET DSP D1 TRAIN INHIBIT D0 EQUALIZER ENABLE
BIT D0
NAME Equalizer Enable
CONDITION 0 1
DESCRIPTION The adaptive equalizer is in its initialized state. The adaptive equalizer is enabled. This bit is used in handshakes to control when the equalizer should calculate its coefficients. The adaptive equalizer is active. The adaptive equalizer coefficients are frozen. The DSP is inactive and all variables are initialized. The DSP is running based on the mode set by other control bits. The receiver and transmitter are using the same decision plane (based on the modulator control mode). The receiver, independent of the transmitter, is forced into a 16 point decision plane. Used for QAM handshaking. The transmitter when placed in alternating mark/space mode transmits 0101...... scrambled or not dependent on the bypass scrambler bit. When this bit is 1 and only when the transmitter is placed in alternating mark/space mode by CR1 bits D7, D6, and in DPSK or QAM, an unscrambled repetitive double di-bit pattern of 00 and 11 at 1200 bit/s (S1) is sent. The DSP is set-up to do demodulation and pattern detection based on the various mode bits. Both answer tones are detected in demodulation mode concurrently; TRD0 is ignored. The DSP decodes unscrambled mark, answer tone and call progress tones. Normal CR3 access. Setting this bit and addressing CR3 allows access to the special register (see the special register for details). Only write zero to this bit.
D1 D2
Train Inhibit RESET DSP
0 1 0 1
D3
16 Way
0 1
D4
Transmit S1
0
1
D5
Call Init
0
1 D6 Special Register Access
Not used at this time
0 1 0
D7
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
CONTROL REGISTER 3
CR3 ADDR 101 D7 TXDALT D6 TRI-STATE TX/RXCLK D5 OH D4 RECEIVE BOOST ENABLE D3 TRANSMIT ATTEN. 3 D2 TRANSMIT ATEN 2 D1 TRANSMIT ATTEN. 1 D0 TRANSMIT ATTEN. 0
BIT D3, D2, D1,D0
NAME Transmit Attenuator 0 1
CONDITION D3 D2 D1 D0 0 1 0 1 0 1
DESCRIPTION Sets the attenuation level of the transmitted signal in 1 dB steps. The default (D3 - D0 = 0100) is for a transmit level of -10 dBm0 on the line with the recommended hybrid transmit gain. The total range is 16 dB. 18 dB receive front end boost is not used. Boost is in the path. This boost does not change reference levels. It is used to extend dynamic range by compensating for internally generated noise when receiving weak signals. The receive level detect signal and knowledge of the hybrid and transmit attenuator setting will determine when boost should be enabled. Relay driver open. Open drain driver pulling low. TXCLK and RXCLK are driven. TXCLK and RXCLK are tri-stated. Alternate TX data source (see Special Register).
D4
Receive Gain Boost
0 1
D5 D6 D7
OH Tri-state TXCLK/RXCLK TXDALT
0 1 0 1 Special Register Bit D3=1
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
SPECIAL REGISTER
SR ADDR 101 D7 0 D6 TXBAUD CLOCK D5 RXUNDSCR DATA D4 0 D3 TXD SOURCE D2 SIGNAL QUALITY LEVEL SELECT 1 D1 SIGNAL QUALITY LEVEL SELECT 0 D0 0
BIT D7, D4, D0 D6
NAME TXBAUD CLK
DESCRIPTION Not used at this time. Only write zeros to these bits. TXBAUD clock is the transmit baud-synchronous clock that can be used to synchronize the input of arbitrary quad/di-bit patterns. The rising edge of TXBAUD signals the latching of a baud-worth of data internally. Synchronous data to be entered via the TXDALT bit, CR3 bit D7, should have data transitions that start 1/2 bit period delayed from the TXBAUD clock edges. This bit outputs the data received before going to the descrambler. This is useful for sending special unscrambled patterns that can be used for signaling. This bit selects the transmit data source; either the TXD pin if zero or the TXDALT if this bit is a one. The transmit pattern bits D7 and D6 in CR1 override either of these sources. The signal quality indicator is a logical zero when the signal received is acceptable for low error rate reception. It is determined by the value of the mean squared error (MSE) calculated in the decision process when compared to a given threshold. This threshold can be set to four levels of error rate. The SQI bit will be low for good or average connections. As the error rate crosses the threshold setting, the SQI bit will toggle at a 1.66 ms rate. Toggling will continue until the error rate indicates that the data pump has lost convergence and a retrain is required. At that point the SQI bit will be a one constantly. The SQI bit and threshold selection are valid for QAM and DPSK only and indicates typical error rate. THRESHOLD VALUE 10 10 10 10
-5 -6 -4 -3
D5
RXUNDSCR Data TXD Source
D3
D2, D1
Signal Quality Level Select
D2 0 0 1 1
D1 0 1 0 1
UNITS BER (default) BER BER BER
NOTE: This register is "mapped" and is accessed by setting CR2 bit D6 to a one and addressing CR3. This register provides functions to the 73K224BL user that are not necessary in normal communications. Bits D7-D4 are read only, while D3-D0 are read/write. To return to normal CR3 access, CR2 bit D6 must be returned to a zero.
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
ID REGISTER
ID ADDR 110 D7 ID D6 ID D5 ID D4 ID D3 X D2 X D1 X D0 X
BIT D7, D6, D5, D4
NAME 0 0 1 1 1
CONDITION D7 D6 D5 D4 0 1 0 1 1 X X X 0 1 X X X 0 0
DESCRIPTION Indicates Device: 73K212L, 73K321L or 73K322L 73K221L or 73K302L 73K222L or 73K222BL 73K224L, 73K224BL 73K324L, 73K324BL
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET ELECTRICAL SPECIFICATIONS
ABSOLUTE MAXIMUM RATINGS PARAMETER VDD supply voltage Storage temperature Soldering temperature (10 s) RATING 7V -65 to 150° C 235° C
Applied voltage -0.3 to VDD + 0.3 V NOTE: All inputs and outputs are protected from static charge using built-in, industry standard protection devices and all outputs are short-circuit protected. RECOMMENDED OPERATING CONDITIONS PARAMETER VDD supply voltage TA, operating free-air Clock variation (11.0592 MHz) crystal or external clock External to GND (Note 1) Placed between VDD and ISET pins ISET pin to GND External to GND (Note 1) External to GND (Note 1) Depends on crystal characteristics from pin to GND Depends on crystal characteristics from pin to GND see Figure 1 600 600 0.033 CONDITION MIN 4.5 -40 -0.01 NOM 5 MAX 5.5 +85 +0.01 UNIT V C %
External components (Refer to application section for placement.) VREF bypass capacitor Bias setting resistor ISET bypass capacitor VDD bypass capacitor 1 VDD bypass capacitor 2 XTL1 load capacitor XTL2 load capacitor Hybrid loading R1 R2 C1 NOTE 1: Minimum for optimized system layout; may require higher values for noisy environments. 0.1 1.8 0.1 0.1 22 40 40 2 2.2 µF Ω µF µF µF pF pF Ω Ω Ω µF
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Rev 7.1
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V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
DC ELECTRICAL CHARACTERISTICS (TA = -40°C to 85°C, VDD = recommended range unless otherwise noted.) PARAMETER IDD, Supply Current IDD1, Active IDD2, Idle Digital Inputs VIL, Input Low Voltage VIH, Input High Voltage All Inputs except Reset XTL1, XTL2 Reset, XTL1, XTL2 IIH, Input High Current IIL, Input Low Current Reset Pull-down Current Digital Outputs VOH, Output High Voltage VOL, Output Low Voltage RXD Tri-State Pull-up Current. OH Output VOL Capacitance CLK Input Capacitance Maximum permitted load All digital inputs 25 10 pF pF IO = IOH Min IOUT = -0.4 mA IO = IOUT = 1.6 mA RXD = GND IOUT = 40 mA -2 2.4 VDD 0.4 -50 TBA V V µA V VI = VDD VI = 0V Reset = VDD -200 2 50 3.0 VDD 100 V µA µA µA 2.0 VDD V 0.8 V CONDITION CLK = 11.0592 MHz ISET Resistor = 2 MΩ Operating with crystal oscillator, < 5 pF capacitive load on CLK pin 20 5 27 7 mA mA MIN NOM MAX UNIT
TXA1
R1 600Ω
NOTE: Parameters expressed in dBm0 refer to signals at the telephone line, i.e., across R2 in Figure 1. The signals at TXA1 or TXA2 are each ≈ 8dB lower than at the line.
RXA
C1
R2 600Ω
The signal at RXA is ≈ 3 dB lower than at the line.
(NOMINAL TELEPHONE LINE IMPEDANCE)
1:1 TXA2 600 Ω
FIGURE 1: ANALOG INTERFACE HYBRID LOADING
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET ELECTRICAL SPECIFICATIONS (continued)
DYNAMIC CHARACTERISTICS AND TIMING (TA = -40°C to +85°C, VDD = recommended range unless otherwise noted.) PARAMETER QAM/DPSK Modulator Carrier suppression Output Amplitude Measured at TXA TX Scrambled marks ATT = 0100 (default) FSK Modulator/Demodulator Output Frequency Error Transmit Level TXA output distortion Output bias distortion @ RXD Output jitter @ RXD Sum of bias distortion and output jitter Output amplitude Output Distortion DTMF Generator Frequency accuracy Output amplitude Output amplitude Twist Receiver Dynamic Range Call Progress Detector Detect level Reject level Delay time Hold time Low band, ATT = 0100, DPSK mode High band, ATT = 0100, DPSK mode High band to low band, DPSK mode Refer to performance curves In call init mode 460 Hz test signal 460 Hz test signal -70 dBm0 to -30 dBm0 step -30 dBm0 to -70 dBm0 step -34 0 -40 25 25 dBm0 dBm0 ms ms CLK = 11.0592 MHz ATT = 0100 (default) transmit dotting pattern All products through BPF Dotting pattern measured at RXD receive level -20 dBm, SNR 20 dB Integrated for 5 seconds Integrated for 5 seconds -10 -15 -17 -0.31 -11.5 -10 +0.20 -9 -45 +10 +15 +17 % dBm0 dB % % % 35 -11.5 -10 -9 dB dBm0 CONDITION MIN NOM MAX UNIT
Answer Tone Generator (2100 or 2225 Hz) ATT = 0100 (default level) Not in V.21 Distortion products in receive band Not in V.21 -0.03 -10 -8 1 -43 2 +0.25 -8 -6 3 -3 % dBm0 dBm0 dB dBm0 -40 dB -11.5 -10 -9 dBm0
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
DYNAMIC CHARACTERISTICS AND TIMING (continued) PARAMETER Carrier Detect Threshold Hysteresis Delay Time FSK DPSK QAM Hold Time FSK DPSK QAM Answer Tone Detectors Detect Level Detect Time Hold Time Pattern Detectors S1 Pattern Delay Time Hold Time Unscrambled Mark Delay Time Hold Time Receive Level Indicator Detect On Valid after Carrier Detect DPSK Mode -22 1 4 -28 7 dBm0 ms For signals from -6 to -40 call init mode 10 10 45 45 ms ms For signals from -6 to -40 dBm0, Demodulation mode 10 10 55 45 ms ms Call init mode, 2100 or 2225 Hz Call init mode, 2100 or 2225 Hz DPSK Mode CONDITION All modes All modes 70 dBm0 to -6 dBm0 Change at input 70 dBm0 to -40 dBm0 Change at input -70 dBm0 to -6 dBm0 Change at input -70 dBm0 to -40 dBm0 Change at input -70 dBm0 to -6 dBm0 Change at input -70 dBm0 to -40 dBm0 Change at input -6 dBm0 to -70 dBm0 Change at input 40 dBm0 to -70 dBm0 Change at input -6 dBm0 to -70 dBm0 Change at input -40 dBm0 to -70 dBm0 Change at input -6 dBm0 to -70 dBm0 Change at input -40 dBm0 to -70 dBm0 Change at input DPSK Mode -48 6 6 -43 50 50 dBm0 ms ms 25 25 7 7 25 25 25 15 20 14 25 18 MIN -48 2 37 37 17 17 37 37 37 30 29 21 32 28 ms ms ms ms ms ms ms ms ms ms ms ms NOM MAX -43 UNIT dBm0
Receive gain = On for lower input level measurements
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Rev 7.1
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V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
DYNAMIC CHARACTERISTICS AND TIMING (continued) PARAMETER Transmit Attenuator Range of Transmit Level Step Accuracy Clock Noise TXA pins; 153.6 kHz Carrier Offset Capture Range Recovered Clock Capture Range Guard Tone Generator Tone Accuracy Tone Level (Below QAM/DPSK Output) Harmonic Distortion (700 to 2900 Hz) 550 Hz 1800 Hz 550 Hz 1800 Hz 550 Hz 1800 Hz -4.5 -7.5 +1.2 -0.8 -3.0 -6.1 -1.5 -4.5 -50 -50 dB dB dB dB % % of frequency (originate or answer) -0.02 +0.02 % Originate or Answer ±5 Hz 1.5 mVrms 1111-0000 (Default ATT=0100) -22 -0.15 -6 +0.15 dBm0 dB CONDITION MIN NOM MAX UNIT
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73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
DYNAMIC CHARACTERISTICS AND TIMING (continued) PARAMETER TIMING (Refer to Timing Diagrams) TAL TLA TLC TCL TRD TLL TRDF TRW TWW TDW TWD TCKD TCKW (serial mode) TDCK (serial mode) TAC (serial mode) TCA (serial mode) TWH (serial mode) CS AD0-AD7 CONDITION * CS/Address setup before ALE Low CS Address hold after ALE Low ALE Low to RD/WR Low RD/WR Control to ALE High Data out from RD Low ALE width Data float after RD High RD width WR width Data setup before WR High Data hold after WR High Data out after EXCLK Low WR after EXCLK Low Data setup before EXCLK Low Address setup before control** Address hold after control** Data Hold after EXCLK 150 150 50 50 50 50 150 15 12 200 12 0 10 10 0 0 15 50 70 ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns MIN NOM MAX UNIT
* All timing parameters are targets and not guaranteed. ** Control for setup is the falling edge of RD or WR. Control for hold is the falling edge of RD or the rising edge of WR. NOTE: Asserting ALE, CS, and RD or WR concurrently can cause unintentional register accesses. When using non-8031 compatible processors, care must be taken to prevent this from occurring when designing the interface logic.
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
TIMING DIAGRAMS
TLL ALE RD WR TLA TAL AD0-AD7 CS ADDRESS READ DATA ADDRESS TRD TRDF TDW WRITE DATA TLC TRW TCL TLC TWW TWD
FIGURE 2: Bus Timing Diagram (Parallel Control Mode)
EXCLK
RD TAC AD0-AD2
TCA
ADDRESS TRD TCKD D1 D2 D3 D4 D5 D6 D7 TRDF
DATA
D0
FIGURE 3: Read Timing Diagram (Serial Control Mode)
EXCLK
TWW WR TCKW
TAC ADDRESS
TCA
AD0-AD2 TDCK DATA D0 D1 D2 D3 D4 D5 D6 D7
TWH
FIGURE 4: Write Timing Diagram (Serial Control Mode)
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET APPLICATIONS INFORMATION
GENERAL CONSIDERATIONS Figure 5 shows the basic circuit diagram for a 73K224BL modem integrated circuit designed to be used in conjunction with a control processor, a UART or RS-232 serial data interface, and a DAA phone line interface to function as a typical intelligent modem. The K-Series ICs interface directly with Intel 8048 and 80C51 microprocessors for control and status monitoring purposes. A typical DAA arrangement is shown in Figure 5. This diagram is for reference only and does not represent a production-ready modem design. The 73K224BL is available with two control interface versions: one for a parallel multiplexed address/data interface, and one for a serial interface. The parallel version is intended for use with 8039/48 or 8031/51 compatible microcontrollers from Intel or many other manufacturers. The serial interface mode can be used with other microcontrollers or in applications where only a limited number of port lines are available or the application does not lend itself to a multiplexed address/data interface. The parallel versions may also be used in the serial mode, as explained in the data sheet pin description. In most applications the controller will monitor the serial data for commands from the DTE and the received data for break signals from the far end modem. In this way, commands to the modem are sent over the same line as the transmitted data. In other applications the RS-232 interface handshake lines are used for modem control.
RING DETECT
+5 TX DATA RX DATA 2 MΩ 1 μF 1 2 3 4 5 6 7 8 9 GND CLK XTL1 XTL2 AD0 AD1 32 RXA 31 VREF RESET 30 29 N/C 28 ISET 27 OH 26 RXCLK 25 RXD 24 TXD 23 CS EXCLK 22 21 TXCLK INT 20 19 N/C 18 TXA1 TXA2 17
+
11.0592
0.1 μF 0.1 μF
8.2 K
RING DETECTOR
CONTROL INTERFACE
ADR/DATA BUS
AD2 AD3 AD4 10 AD5 11 AD6 12 AD7 13 ALE 14 WR 15 RD 16 VDD
HOOK RELAY FUSE
600 Ω
+5 1 2 3 4
μC ALE μC WR μC RD +5 + 10 μF 0.1 μF
0.033 μF 600 Ω 1:1 TYP. TRANSFORMER
TRANSIENT SUPPRESSOR
RJ - 11
RXCLK TXCLK EXCLK CHIP SELECT
FIGURE 5: Typical 73K224BL DAA Circuit
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Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET APPLICATIONS INFORMATION (continued)
DIRECT ACCESS ARRANGEMENT (DAA) The DAA (Direct Access Arrangement) required for the 73K224BL consists of an impedance matching resistor, telecom coupling transformer, and ring detection and fault protection circuitry. The transformer specifications must comply with the impedance of the country in which the modem is being operated. Transformers designed specifically for use with the telephone network should be used. These may present a DC load to the network themselves (a “wet” transformer) or they may require AC coupling with a DC load provided by additional devices (a “dry” transformer). A dry transformer will generally provide higher performance and smaller size than a wet transformer. A wet transformer allows a simpler design, but must not saturate with the worst case DC current passing through it or distortion and poor performance will result. The protection circuitry typically consists of a transient suppression device and current limiter to protect the user and the telephone network from hazardous voltages that can be present under fault conditions. The transient suppresser may be a MOV (metal oxide varistor), Sidactor® (Teccor Electronics Inc.), spark gap device, or avalanche diode. Some devices clamp the transient to their specified break down voltage and others go into low impedance crowbar state. The latter require that the fault current cease before they can return to their inactive state. Current limiting devices can consist of a resistor, Raychem PolySwitch® resettable fuse, or slow blow fuse that can withstand the transient tests without permanent damage or replacement. Ring detection circuitry is not required by the FCC, but may be required by the application. The ring detector usually consists of an optoisolator, capacitor, and resistor to present the proper AC load to the network to meet the REN (Ring Equivalency Number) regulations of FCC Part 68. The K-Series Design Manual contains detailed information on the design of a ring detect circuits as well as the other topics concerning the DAA. DESIGN CONSIDERATIONS Semiconductor's one-chip modem products include all basic modem functions. This makes these devices adaptable for use in a variety of applications, and as easy to control as conventional digital bus peripherals. Unlike digital logic circuitry, modem designs must properly contend with precise frequency tolerances and very low level analog signals, to ensure acceptable performance. Using good analog circuit design practices will generally result in a sound design. Following are additional recommendations, which should be taken into consideration when starting new designs. CRYSTAL OSCILLATOR The K-Series crystal oscillator requires a parallel mode (anti-resonant) crystal, which operates at 11.0592 MHz. It is important that this frequency be maintained to within ±0.01% accuracy. In order for a parallel mode crystal to operate correctly and to specification, it must have a capacitor connected to the junction of each of the crystal and internal inverter connections, terminated to ground. The values of these capacitors depend primarily on the crystal’s characteristics, and to a lesser degree on the internal inverter circuit. The values used affect the accuracy and start up characteristics of the oscillator. LAYOUT CONSIDERATIONS Good analog/digital design rules must be used to control system noise in order to obtain highest performance in modem designs. The more digital circuitry present on the PC board, the more this attention to noise control is needed. The modem should be treated as a high performance analog device. A 22 µF electrolytic capacitor in parallel with a 0.1 µF ceramic capacitor between VDD and GND is recommended. Liberal use of ground planes and larger traces on power and ground are also highly favored. High speed digital circuits tend to generate a significant amount of EMI (ElectroMagnetic Interference), which must be minimized in order to meet regulatory agency limitations. To accomplish this, high speed digital devices should be locally bypassed, and the telephone line interface and K-Series device should be located close to each other near the area of the board where the phone line connection is accessed. To
Rev 7.1
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73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
avoid problems, power supply and ground traces should be routed separately to the analog and digital functions on the board, and digital signals should not be routed near low level or high impedance analog traces. The analog and digital grounds should only connect at one point near the K-Series device ground pin to avoid ground loops. The K-Series modem ICs should have both high frequency and low frequency bypassing as close to the package as possible. BER VS. S/N This test measures the ability of the modem to operate over noisy lines with a minimum of datatransfer errors. Since some noise is generated in the best of dial-up lines, the modem must operate with the lowest S/N ratio possible. Better modem performance is indicated by test curves that are closest to the BER axis. A narrow spread between curves representing the four line parameters indicates minimal variation in performance while operating over a range of operating conditions. Typically, a DPSK modem will exhibit better BER performance test curves receiving in the low band than in the high band. BER VS. RECEIVE LEVEL This test measures the dynamic range of the modem. Because signal levels vary widely over dial-up lines, the widest possible dynamic range is desirable. The minimum Bell specification calls for 36 dB of dynamic range. S/N ratios are held constant at the indicated values while the receive level is lowered from a very high to very low signal levels. The width of the “bowl” of these curves, taken at the BER point, is the measure of dynamic range.
MODEM PERFORMANCE CHARACTERISTICS
The curves presented here define modem IC performance under a variety of line conditions while inducing disturbances that are typical of those encountered during data transmission on public service telephone lines. Test data was taken using an AEA Electronics’ “Autotest I” modem test set and line simulator, operating under computer control. All tests were run full-duplex, using a Concord Data Systems 224 as the reference modem. A 511 pseudo-randombit pattern was used for each data point. Noise was Cmessage weighted and all signal-to-noise (S/N) ratios reflect total power measurements similar to the CCITT V.56 measurement specification. The individual tests are defined as follows.
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET
73K224BL BER vs S/N-DPSK LOW BAND
10 -2
LOW BAND RECEIVE -30 dBm DPSK OPERATION 1200 BIT/S
73K224BL BER vs S/N-DPSK HIGH BAND
10 -2
HIGH BAND RECEIVE -30 dBm DPSK OPERATION 1200 BIT/S
10 -3
10 -3
3002
C1, 3002, FLAT
BIT ERROR RATE
BIT ERROR RATE
C1, C2, FLAT
10 -4
10 -4
10
-5
10 -5
C2
10 -6 4 6 8 10 12 14 16 SIGNAL TO NOISE (dB)
10 -6 4 6 8 10 12 14 16 SIGNAL TO NOISE (dB)
73K224BL BER VS S/N-QAM-LOW BAND
10 -2
HIGH BAND RECEIVE -30 dBm QAM OPERATION 2400 BIT/S
73K224BL BER VS S/N-QAM-HIGH BAND
10 -2
HIGH BAND RECEIVE -30 dBm QAM OPERATION 2400 BIT/S
C1
C1
10 -3
10 -3
FLAT
FLAT
BIT ERROR RATE
10
-4 3002
C2
BIT ERROR RATE
10
-4 3002
C2
10 -5
10 -5
10
-6
10 8 10 12 14 16 18 20 SIGNAL TO NOISE (dB)
-6
8
10
12
14
16
18
20
SIGNAL TO NOISE (dB)
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© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET MECHANICAL SPECIFICATIONS
32-Lead PLCC
0.453 (11.51) 0.449 (11.40)
0.023 0.029
PIN NO. 1 IDENT.
0.140 (3.56) 0.123 (3.12) 0.050 0.013 0.021 0.300 REF (7.62 REF) 0.430 (10.92) 0.390 (9.91) 0.026 0.032 0.045 (1.140) 0.020 (0.508)
0.595 (15.11) 0.585 (14.86)
0.553 (14.05) 0.549 (13.94)
0.095 (2.41) 0.078 (1.98)
0.400 REF (10.16 REF) 0.530 (13.46) 0.490 (12.45)
0.495 (12.57) 0.485 (12.32)
Page: 32 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1
73K224BL
V.22bis, V.22, V.21, Bell 212A, 103 Single-Chip Modem w/ Integrated Hybrid
DATA SHEET PACKAGE PIN DESIGNATIONS
(Top View)
CAUTION: Use handling procedures necessary for a static sensitive component.
4 AD0 AD1 AD2 AD3 AD4 AD5 AD6 DATA/AD7 ALE 5 6 7 8 9 10 11 12 13 14 WR
3
2
1
32
31
30 29 28 27 26 25 24 23 22 21 20 INT
RESET
XTAL2
XTAL1
VREF
GND
RXA
CLK
N/C ISET OH RXCLK RXD TXD CS EXCLK TXCLK
15 RD
16 VDD
17 TXA2
18 TXA1
19 N/C
32-Pin PLCC 73K224BL-IH
ORDERING INFORMATION
PART DESCRIPTION 73K224BL 73K224BL 32-Pin PLCC Lead Free 32-Pin PLCC Lead Free Tape / Reel ORDER NUMBER 73K224BL-IH/F 73K224BL-IHR/F PACKAGING MARK 73K224BL-IH 73K224BL-IH
No responsibility is assumed by TERIDIAN Semiconductor Corporation for use of this product nor for any infringements of patents and trademarks or other rights of third parties resulting from its use. No license is granted under any patents, patent rights or trademarks of TERIDIAN Semiconductor Corporation, and the company reserves the right to make changes in specifications at any time without notice. Accordingly, the reader is cautioned to verify that the data sheet is current before placing orders. TERIDIAN Semiconductor Corp., 6440 Oak Canyon Rd., Irvine, CA 92618-5201, (714) 508-8800, FAX: (714) 508-8877, http://www.teridiansemi.com Protected by the following Patents (4,691,172) (4,777,453) © 2005, 2008 TERIDIAN Semiconductor Corporation
06/20/08 – rev.7.1
Page: 33 of 33
© 2005, 2008 TERIDIAN Semiconductor Corporation
Rev 7.1