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| m-8888 dtmf transceiver advanced cmos technology for low power consump - tion and increased noise immunity complete dtmf transmitter/receiver in a single chip standard 8051, 8086/8 microprocessor port central office quality and performance adjustable guard time automatic tone burst mode call progress mode single +5 volt power supply 20-pin dip and soic packages 2 mhz microprocessor port operation inexpensive 3.58 mhz crystal applications include: paging systems, repeater sys - tems/mobile radio, interconnect dialers, pbx systems, computer systems, fax machines, pay telephones, credit card verification the teltone m-8888 is a complete dtmf transmitter/receiver that features adjustable guard time, automatic tone burst mode, call progress mode, and a fully compatible 8051, 8086/8 micro- processor interface. the receiver portion is based on the indus- try standard m-8870 dtmf receiver, while the transmitter uses a switched-capacitor digital-to-analog converter for low-distortion, highly accurate dtmf signaling. tone bursts can be transmitted with precise timing by making use of the auto- matic tone burst mode. to analyze call progress tones, a call progress filter can be selected by an external microprocessor. functional description m-8888 functions consist of a high-performance dtmf receiver with an internal gain setting amplifier and a dtmf generator that contains a tone burst counter for generating precise tone bursts and pauses. the call progress mode, when selected, allows the detection of call progress tones. a standard 8051, 8086/8 series microprocessor interface allows access to an internal status register, two control registers, and two data registers. page 1 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com figure 1 pin connections figure 2 block diagram
input configuration the input arrangement consists of a differential input opera - tional amplifier and bias sources (v ref ) for biasing the amplifier inputs at v dd /2. provisions are made for the connection of a feedback resistor to the op-amp output (gs) for gain adjust - ment. in a single-ended configuration, the input pins should be connected as shown in figure 3. figure 4 shows the necessary connections for a differential input configuration. receiver section the low and high group tones are separated by applying the dtmf signal to the inputs of two sixth-order switched capacitor bandpass filters with bandwidths that correspond to the low and high group frequencies listed in table 2. the low group filter in- corporates notches at 350 and 440 hz, providing excellent dial tone rejection. each filter output is followed by a single-order switched capacitor filter that smoothes the signals prior to limit- ing. limiting is performed by high-gain comparators with hyster- esis to prevent detection of unwanted low-level signals. the comparator outputs provide full-rail logic swings at the incoming dtmf signal frequencies. a decoder employs digital counting techniques to determine the frequencies of the incoming tones, and to verify that they corre - spond to standard dtmf frequencies. a complex averaging al - gorithm protects against tone simulation by extraneous signals (such as voice), while tolerating small deviations in frequency. the algorithm provides an optimum combination of immunity to talkoff with tolerance to interfering frequencies (third tones) and noise. when the detector recognizes the presence of two valid tones (referred to as signal condition), the early steering (est) output goes to an active state. any subsequent loss of signal condition will cause est to assume an inactive state. steering circuit: before a decoded tone pair is registered, the receiver checks for a valid signal duration (referred to as char- page 2 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com figure 3 single-ended input configuration name description in+ noninverting op-amp input. in- inverting op-amp input. gs gain select. gives access to output of front end differential amplifier for connection of feedback resistor. v ref reference voltage output. nominally v dd /2 is used to bias inputs at mid-rail. v ss negative power supply input. osc1 dtmf clock/oscillator input. osc2 clock output. a 3.5795 mhz crystal connected between osc1 and osc2 completes the internal oscillator circuit. tone dual tone multifrequency (dtmf) output. wr write input. a low on this pin when cs is low enables data transfer from the microprocessor. ttl compatible. cs chip select. ttl input (cs = 0 to select the chip). rs0 register select input. see table 6. ttl compatible. rd read input. a low on this pin when cs is low enables data transfer to the microprocessor. ttl compatible.. irq /cp interrupt request to microprocessor (open-drain output). also, when call progress (cp) mode has been selected and inter - rupt enabled, the irq /cp pin will output a rectangular wave signal representative of the input signal applied at the input op-amp. the input signal must be within the bandwidth limits of the call progress filter. see figure 11. d0-d3 microprocessor data bus. ttl compatible. est early steering output. presents a logic high once the digital algorithm has detected a valid tone pair (signal condition). any momentary loss of signal condition will cause est to return to a logic low. st/gt steering input/guard time output (bidirectional). a voltage greater than v tst detected at st causes the device to register the detected tone pair and update the output latch. a voltage less than v tst frees the device to accept a new tone pair. the gt output acts to reset the external steering time-constant; its state is a function of est and the voltage on st. v dd positive power supply input. table 1 pin functions figure 4 differential input configuration acter recognition condition). this check is performed by an ex - ternal rc time constant driven by est. a logic high on est causes v c (see figure 5) to rise as the capacitor discharges. provided that the signal condition is maintained (est remains high) for the validation period (t gtp ), v c reaches the threshold (v tst ) of the steering logic to register the tone pair, latching its corresponding 4-bit code (see table 2) into the receive data reg - ister. at this point the stgt output is activated and drives v c to v dd . stgt continues to drive high as long as est remains high. finally, after a short delay to allow the output latch to settle, the delayed steering output flag goes high, signaling that a received tone pair has been registered. it is possible to monitor the status of the delayed steering flag by checking the appropriate bit in the status register. if interrupt mode has been selected, the irq /cp pin will pull low when the delayed steering flag is active. the contents of the output latch are updated on an active de - layed steering transition. this data is presented to the 4-bit bidirectional data bus when the receive data register is read. the steering circuit works in reverse to validate the interdigit pause between signals. thus, as well as rejecting signals too short to be considered valid, the receiver will tolerate signal in - terruptions (dropout) too short to be considered a valid pause. this capability, together with the ability to select the steering time constants externally, allows the designer to tailor perfor - mance to meet a wide variety of system requirements. guard time adjustment: the simple steering circuit shown in figure 5 is adequate for most applications. component values are chosen according to the formula: t rec =t dp +t gtp t id =t da +t gta the value of t dp is a device parameter and t rec is the minimum signal duration to be recognized by the receiver. a value for c1 of 0.1 m f is recommended for most applications, leaving r1 to be selected by the designer. different steering arrangements may be used to select independently the guard times for tone present (t gtp ) and tone absent (t gta ). this may be necessary to meet system specifications that place both accept and reject limits on both tone duration and interdigit pause. guard time ad - justment also allows the designer to tailor system parameters such as talkoff and noise immunity. increasing t rec improves talkoff performance since it reduces the probability that tones simulated by speech will maintain signal condition long enough to be registered. alternatively, a relatively short t rec with a long t do would be appropriate for extremely noisy environments where fast acquisition time and immunity to tone dropouts are required. design information for guard time adjustment is shown in figure 6. call progress filter a call progress (cp) mode can be selected, allowing the detec - tion of various tones that identify the progress of a telephone call on the network. the call progress tone input and dtmf input are common; however, call progress tones can only be detected when the cp mode has been selected. dtmf signals cannot be page 3 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com figure 5 basic steering circuit f low f high digit d3 d2 d1 d0 697 1209 1 0001 697 1336 2 0010 697 1477 3 0011 770 1209 4 0100 770 1336 5 0101 770 1477 6 0110 852 1209 7 0111 852 1336 8 1000 852 1477 9 1001 941 1336 0 1010 941 1209 * 1011 941 1477 # 1100 697 1633 a 1101 770 1633 b 1110 852 1633 c 1111 941 1633 d 0000 0 = logic low, 1 = logic high table 2 tone encoding/decoding figure 6 guard time adjustment detected if the cp mode has been selected (see table 3). fig - ure 7 indicates the useful detect bandwidth of the call progress filter. frequencies presented to the input (in+ and in-) that are within the accept bandwidth limits of the filter are hard-limited by a high-gain comparator with the irq /cp pin serving as the output. the square wave output obtained from the schmitt trig - ger can be analyzed by a microprocessor or counter arrange - ment to determine the nature of the call progress tone being detected. frequencies in the reject area will not be detected, and consequently there will be no activity on irq /cp as a result of these frequencies. dtmf generator the dtmf transmitter used in the m-8888 is capable of generat- ing all 16 standard dtmf tone pairs with low distortion and high accuracy. all frequencies are derived from an external 3.58 mhz crystal. the sinusoidal waveforms for the individual tones are digitally synthesized using row and column programmable dividers and switched capacitor digital-to-analog converters. the row and column tones are mixed and filtered, providing a dtmf signal with low total harmonic distortion and high accu - racy. to specify a dtmf signal, data conforming to the encod - ing format shown in table 2 must be written to the transmit data register. note that this is the same as the receiver output code. the individual tones that are generated (f low and f high ) are re - ferred to as low-group and high-group tones. typically, the high-group to low-group amplitude ratio (twist) is 2 db to com - pensate for high-group attenuation on long loops. operation: during write operations to the transmit data register, 4-bit data on the bus is latched and converted t oa2of8 code for use by the programmable divider circuitry to specify a time seg - ment length that will ultimately determine the tone frequency. the number of time segments is fixed at 32, but the frequency is varied by varying the segment length. when the divider reaches the appropriate count as determined by the input code, a reset pulse is issued and the counter starts again. the divider output clocks another counter that addresses the sinewave lookup rom. the lookup table contains codes used by the switched capacitor d/a converter to obtain discrete and highly accurate dc voltage levels. two identical circuits are used to produce row and column tones, which are then mixed using a low-noise summing amplifier. the oscillator described needs no startup time as in other dtmf generators, since the crystal oscillator is running continuously, thus providing a high degree of tone burst accuracy. when there is no tone output signal, the tone pin as - sumes a dc level of 2.5 volts (typically). a bandwidth limiting fil - ter is incorporated to attenuate distortion products above 4 khz. burst mode: certain telephony applications require that gener - ated dtmf signals be of a specific duration, determined either by the application or by any of the existing exchange transmitter specifications. standard dtmf signal timing can be accom - plished by making use of the burst mode. the transmitter is ca - pable of issuing symmetric bursts/pauses of predetermined duration. this burst/pause duration is 51 ms 1 ms, a standard interval for autodialer and central office applications. after the burst/pause has been issued, the appropriate bit is set in the sta - tus register, indicating that the transmitter is ready for more data. the timing described in the previous paragraph is available when the dtmf mode has been selected. however, when call progress (cp) mode is selected, a secondary burst/pause time is available that extends this interval to 102 ms 2 ms. the ex - tended interval is useful when precise tone bursts of longer than 51 ms duration and 51 ms pause are desired. note that when cp mode and burst mode have been selected, dtmf tones may be transmitted only and not received. in applications where a nonstandard burst/pause time is desirable, a software timing loop or external timer can be used to provide the timing pulses when the burst mode is disabled by enabling and disabling the transmitter. the m-8888 is initialized on powerup sequence with dtmf mode and burst mode selected. single-tone generation: a single-tone mode is available whereby individual tones from the low group or high group can be generated. this mode can be used for dtmf test equipment applications, acknowledgment tone generation, and distortion measurements. refer to table 5 for details. distortion calculations: the m-8888 is capable of producing precise tone bursts with minimal error in frequency (see table 3). the internal summing amplifier is followed by a first-order low-pass switched capacitor filter to minimize harmonic compo - nents and intermodulation products. the total harmonic distor - tion for a single tone can be calculated using equation 1, (see figure 9), which is the ratio of the total power of all the extrane - ous frequencies to the power of the fundamental frequency ex - pressed as a percentage. the fourier components of the tone output correspond to v2f... vnf as measured on the output waveform. the total harmonic distortion for a dual tone can be calculated using equation 2, (see figure 9). page 4 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com figure 7 call progress response active cell output frequency(hz) specified actual % error l1 697 699.1 + 0.30 l2 770 766.2 - 0.49 l3 852 847.4 - 0.54 l4 941 948.0 + 0.74 h1 1209 1215.9 + 0.57 h2 1336 1331.7 - 0.32 h3 1447 1471.9 - 0.35 h4 1633 1645.0 + 0.73 table 3 actual frequencies vs standard requirements v l and v h correspond to the low-group and high-group ampli - tude, respectively, and v 2 imd is the sum of all the intermodulation components. the internal switched capacitor filter following the d/a converter keeps distortion products down to a very low level. dtmf clock circuit the internal clock circuit is completed with the addition of a stan - dard 3.579545 mhz television color burst crystal. a number of m-8888 devices can be connected as shown in figure 8 using only one crystal. microprocessor interface the m-8888 uses a microprocessor interface that allows pre - cise control of transmitter and receiver functions. five internal registers are associated with the microprocessor interface, which can be subdivided into three categories: data transfer, transceiver control, and transceiver status. two registers are associated with data transfer operations. the receive data reg - ister, a read-only register, contains the output code of the last valid dtmf tone pair to be decoded. the data entered in the transmit data register determines which tone pair is to be gener - ated (see table 2). data can only be written to the transmit data register. transceiver control is accomplished with two control registers ( and crb) that occupy the same address space. a write operation to crb can be executed by setting the appropri - ate bit in cra. the following write operation to the same ad - dress will then be directed to crb, and subsequent write cycles page 5 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com bit name function description b0 tout tone output a logic 1 enables the tone output. this function can be implemented in either the burst mode or nonburst mode. b1 cp/dtmf mode control in dtmf mode (logic 0), the device is capable of generating and receiving dtmf signals. when the call progress (cp) mode is selected (logic 1), a 6th-order bandpass filter is enabled to allow call prog - ress tones to be detected. call progress tones within the specified bandwidth will be presented at the irq /cp pin in rectangular wave format if the irq bit has been enabled (b2 = 1). also, when the cp mode and burst mode have both been selected, the transmitter will issue dtmf signals with a burst and pause of 102 ms (typ) duration. this signal duration is twice that obtained from the dtmf trans - mitter, if dtmf mode had been selected. note that dtmf signals cannot be decoded when the cp mode has been selected. b2 irq interrupt enable a logic 1 enables the interrupt mode. when this mode is active and the dtmf mode has been se - lected (b1 = 0), the irq /cp pin will pull to a logic 0 condition when either (1) a valid dtmf signal has been received and has been present for the guard time or (2) the transmitter is ready for more data (burst mode only). b3 rsel register select a logic 1 selects control register b on the next write cycle to the control register address. subsequent write cycles to the control register are directed back to control register a. table 4 control register a description bit name function description b0 burst burst mode a logic 0 enables the burst mode. when this mode is selected, data corresponding to the de - sired dtmf tone pair can be written to the transmit data register, resulting in a tone burst of a specific duration (see table 12). subsequently, a pause of the same duration is induced. imme - diately following the pause, the status register is updated indicating that the transmit data regis - ter is ready for further instructions, and an interrupt will be generated if the interrupt mode has been enabled. additionally, if call progress (cp) mode has been enabled, the burst and pause duration is increased by a factor of two. when the burst mode is not selected (logic 1), tone bursts of any desired duration may be generated. b1 test test mode by enabling the test mode (logic 1), the irq /cp pin will present the delayed steering (inverted) signal from the dtmf receiver. refer to figure 11 (b3 waveform) for details concerning the out- put waveform. dtmf mode must be selected (cra b1 = 0) before test mode can be imple- mented. b2 s/d single/dual tone generation a logic 0 will allow dtmf signals to be produced. if single-tone generation is enabled (logic 1), either now or column tones (low or high group) can be generated depending on the state of b3 in control register b. b3 c/r column/row tones when used in conjunction with b2 (above), the transmitter can be made to generate single-row or single-column frequencies. a logic 0 will select row frequencies and a logic 1 will select col - umn frequencies. table 5 control register b description figure 8 common crystal connection will then be redirected to cra. internal reset circuitry clears the control registers on powerup; however, as a precautionary mea - sure, the initialization software should include a routine to clear the registers. refer to tables 3 and 4 for details on the control registers. the irq /cp pin can be programmed to provide an in - terrupt request signal on validation of dtmf signals, or when the transmitter is ready for more data (burst mode only). the irq /cp pin is configured as an open-drain output device and as such requires a pullup resistor (see figure 10). ordering information m-8888-01p 20-pin plastic dip M-8888-01SM 20-pin plastic soic m-8888-01t 20-pin plastic soic,tape and reel page 6 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com rs0 rd wr function 0 1 0 write to transmitter 0 0 1 read from receiver 1 1 0 write to control register 1 0 1 read from status register table 6 internal register functions b3 b2 b1 b0 rsel irq cp/dtmf tout table 7 cra bit positions b3 b2 b1 b0 c/r s/d test burst table 8 crb bit positions figure 9 equations figure 10 application circuit (single-ended input) page 7 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com bit name status flag set status flag cleared b0 irq interrupt has occurred. bit one (b1) and/or bit 2 (b2) is set. interrupt is inactive. cleared after status register is read. b1 transmit data register empty (burst mode only) pause duration has terminated and trans - mitter is ready for new data. cleared after status register is read or when not in burst mode. b2 receive data register full. valid data is in the receive data register cleared after status register is read. b3 delayed steering set on valid detection of the absence of a dtmf signal. cleared on detection of a valid dtmf sig - nal. table 9 status register description parameter symbol value power supply voltage (v dd -v ss )v dd + 6.0 v max voltage on any pin v dc v ss -0.3 v to v dd + 0.3 current on any pin i dd 10 ma max operating temperature t a -40c to +85c storage temperature t s -65c to +150c note: exceeding these ratings may cause permanent damage. functional operation under these conditions is not implied. table 10 absolute maximum ratings parameter symbol min typ* max units operating supply voltage v dd 4.75 5.0 5.25 v operating supply current i dd 1015ma power consumption p o 50 78.75 mw inputs high-level input voltage, osc1 v iho 3.5 v low-level input voltage, osc1 v ilo 1.5 v input impedance (@ 1 khz), in+, in- r in 10 m w steering threshold voltage v tst 2.2 2.3 2.5 v outputs high-level output voltage (no load), osc2 v oho 4.9 v low-level output voltage (no load), osc2 v olo 0.1 v output leakage current (v oh = 2.4v), irq i oz 1.0 10.0 m a v ref output voltage (no load) v ref 2.4 2.7 v v ref output resistance r or 1.0 k w data bus low-level input voltage v il 0.8 v high-level input voltage v ih 2.0 v low-level output voltage (i ol = 1.6 ma) v ol 0.4 v high-level output voltage (i oh = 400 m a) v oh 2.4 v input leakage current (v in = 0.4 to 2.4 v) i iz 10.0 m a all voltages referenced to v ss unless otherwise noted. v dd = 5.0 v 5%; f c = 3.579545 mhz; t a = -40 c to +85 c unless otherwise noted. *typical values are for use as design aids only, and are not guaranteed or subject to production testing. table 11 dc characteristics page 8 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com parameter symbol min typ* max units receive signal conditions valid input signal levels (each tone of composite signal; notes 1, 2, 3, 5, 6, 9) -29 27.5 +1 869 dbm mv rms positive twist accept (notes 2, 3, 6, 9) 6db negative twist accept (notes 2, 3, 6, 9) 6db frequency deviation accept (notes 2, 3, 5, 9) 1.5% 2 hz nom. frequency deviation reject (notes 2, 3, 5) 3.5% nom. third tone tolerance (notes 2, 3, 4, 5, 9, 10) -16 db noise tolerance (notes 2, 3, 4, 5, 7, 9, 10) -12 db dial tone tolerance (notes 2, 3, 4, 5, 8, 9, 11) +22 db call progress lower frequency (@ -25 dbm) accept f la 320 hz upper frequency (@ -25 dbm) accept f ha 510 hz lower frequency (@ -25 dbm) reject f lr 290 hz upper frequency (@ -25 dbm) reject f hr 540 hz receive timing tone present detect time t dp 51114ms tone absent detect time t da 0.5 4 8.5 ms tone duration accept (ref. figure 13) t rec 40 ms tone duration reject (ref. figure 13) t rec 20 ms interdigit pause accept (ref. figure 13) t id 40 ms interdigit pause reject (ref. figure 13) t do 20 ms delay st to b3 t pstb3 13 m s delay st to rx o rx 3 t pstrx 8 m s transmit timing tone burst duration (dtmf mode) t bst 50 52 ms tone pause duration (dtmf mode) t ps 50 52 ms tone burst duration (extended, call progress mode) t bste 100 104 ms tone pause duration (extended, call progress mode) t pse 100 104 ms tone output high group output level (r l = 10 k w ) v hout -6.1 -2.1 dbm low group output level (r l = 10 k w ) v lout -8.1 -4.1 dbm pre-emphasis (r l = 10 k w ) db p 023db output distortion (r l = 10 k w , 3.4 khz bandwidth) thd -25 db frequency deviation (f = 3.5795 mhz) f d 0.7 1.5 % output load resistance r lt 10 50 k w microprocessor interface rd, wr low pulse width t cl 200 ns rd, wr high pulse width t ch 180 ns rd, wr rise and fall time t r ,t f 25 ns address hold time t ah 10 ns address setup time t as 23 ns data hold time (read) t dhr 22 ns rd to valid data delay (200 pf load) t ddr 150 ns table 12 ac characteristics page 9 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com parameter symbol min *typ max units input leakage current (v ss v in v dd ) i in 100 na input resistance r in 10 m w input offset voltage v os 25mv power supply rejection (1 khz) psrr 60 db common mode rejection (-3.0 v v in 3.0v) cmrr 60 db dc open-loop voltage gain avol 65 db unity gain bandwidth bw 1.5 mhz output voltage swing (r l 3 100 k w to v ss ) v o 4.5 vpp maximum capcitive load, gs c l 100 pf maximum resistive load, gs r l 50 k w common mode range (no load) v cm 3.0 vpp all voltages referenced to v ss unless oterhwise noted. v dd = 5.0v 5%; v ss = 0 v; f c = 3.579545 mhz; t a = -40c to +85c *typical values are for use as design aids only, and are not guaranteed or subject to production testing. table 13 electrical characteristics - gain setting amplifier parameter symbol min typ* max units microprocessor interface (continued) data setup time (write) t dsw 45 ns data hold time (write) t dhw 10 ns input capacitance, d0d3 c in 5pf output capacitance, irq /cp c/ out 5pf dtmf clock crystal clock frequency f c 3.5759 3.5795 3.5831 mhz clock input rise time (external clock) t lhcl 110 ns clock input fall time (external clock) t hlcl 100 ns clock input duty cycle (external clock) dc cl 40 50 60 % capacitive load, osc2 c lo 30 pf voltages referenced to v ss unless otherwise noted. v dd = 5.0v 5%; v ss = 0 v; f c = 3.579545 mhz; t a = -40c to +85c *typical values are for use as design aids only and are not guaranteed or subject to production testing. notes : 1. dbm = decibels above or below a reference power of 1 mw into a 600 w load. 2. digit sequence consists of all 16 dtmf tones. 3. tone duration = 40 ms. tone pause = 40 ms. 4. nominal dtmf frequencies are used. 5. both tones in the composite signal have an equal amplitude. 6. the tone pair is deviated by 1.5% 2 hz. 7. bandwidth limited (3 khz) gaussian noise. 8. the precise dial tone frequencies are 350 and 440 hz ( 2%). 9. for an error rate of less than 1 in 10,000. 10. referenced to the lowest amplitude tone in the dtmf signal. 11. referenced to the minimum valid accept level. table 12 ac characteristics (continued) page 10 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com figure 11 timing diagrams figure 12 test loads page 11 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com explanation of events (a) tone bursts detected, tone duration invalid, rx data register not updated. (b) tone #n detected, tone duration valid, tone decoded and latched in rx data register. (c) end of tone #n detected, tone absent duration valid, rx data register remain latched until next valid tone. (d) tone #n + 1 detected, tone duration valid, tone decoded and latched in rx data register. (e) acceptable dropout of tone #n + 1, tone absent duration invalid, rx data register remain latched. (f) end of tone #n + 1 detected, tone absent duration valid, rx data register remain latched until next valid tone. explanation of symbols v in dtmf composite input signal. est early steering output. indicates detection of valid tone frequencies. st/gt steering input/guard time output. drives external rc timing circuit. rx 0 -rx 3 4-bit decoded data in receive data register. b3 delayed steering output. indicates that valid frequencies have been present/absent for the required guard time, thus constituting a valid dtmf signal. b2 output enable (input). a low level shifts q1 - q4 to its high impedance state. irq /cp interrupt is active indicating that new data is in the rx data register. the interrupt is cleared after the status register is ready. t rec maximum dtmf signal duration not detected as valid. t rec minimum dtmf signal duration required for valid recognition. t id minimum time between valid dtmf signals. t do maximum allowable dropout during valid dtmf signal. t dp time to detect the presence of valid dtmf signals. t da time to detect the absence of valid dtmf signals. t gtp guard time, tone present. t gta guard time, tone absent. figure 13 timing diagrams page 12 m-8888 teltone corporation, 22121-20th avenue se, bothell, wa 98021-4408 u.s.a phone: 800-426-3926 or 425-487-1515 fax: 425-487-2288 40-406-00013, rev. f e-mail: info@teltone.com internet: www.teltone.com figure 14 package dimensions tolerances inches metric (mm) min max min max a .210 5.33 a1 .015 .38 b .014 .022 .36 .56 b 2 .045 .070 1.14 1.78 c .008 .014 .20 .36 d .980 1.060 24.89 26.92 e .300 .325 7.62 8.26 e1 .240 .280 6.10 7.11 e .100 bsc 2.54 bsc e c 0 15 0 15 l .115 .150 2.92 3.81 tolerances inches metric (mm) min max min max a .093 .104 2.35 2.65 a1 .004 .012 .10 .30 b .013 .020 .33 .51 d .496 .512 12.60 13.00 e .291 .299 7.39 7.59 e .050 bsc 1.27 bsc h .394 .419 10.00 10.65 l .016 .050 .40 1.27 |
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