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asahi kasei [AK2363] ms0583-e-01 2008/06 - 1 - AK2363 radio signaling lsi features dtmf receiver including an agc circuit built-in msk modem allowing selection from 1200 and 2400 bit/s programmable modem frame detection pattern built-in 3.6864mhz oscillator circuit support of external clocks with frequencies twice, three times, and four times higher than 3.6864mhz operating voltage range: 2.6v to 3.7v operating temperature range: -40 c to +85 c package: 24-pin qfnj (4.0 x 4.0 x 0.75mm, 0.5mm pitch) overview the AK2363 is a radio signaling lsi device into which an msk modem and a dtmf receiver are integrated on a single chip. the msk modem supports 1200 and 2400 bit/s, and the demodulator has a 16-bit frame pattern detection function that allows any settings. when the signal-to-noise ( s/n) ratio is 12db, the ber characteristic at 1200 bit/s is 5.0e-06, and the ber characteristic at 2400 bit/s is 1.0e-04. the dtmf receiver operates in two modes: normal mode (agd disable) indicating input signal detection levels ranging from -27dbx to 0dbx and high sensitivity mode (agc enable) in which the receiver operates at C40dbx to 0dbx. in addition to a fundamental frequency of 3.686mhz, the oscillator circuit supports external clock input with frequencies of 7.3728mhz (twice higher than 3.6864mhz), 11.0592mhz (three times higher than 3.6864mhz), and 14.7456mhz (four times higher than 3.6864mhz). the internal operation is controlled by the three-wire serial method in which serial input data (sdata) consisting of a 1-bit instruction, a 4-bit address, and 8-bit data is set in synchronization with the csn and sclk signals. the 24-pin qfnj package (4.0mm 4.0mm) is employed to realize compact, high-density packaging.
asahi kasei [AK2363] ms0583-e-01 2008/06 - 2 - contents features............................................................................................................................ 1 overview........................................................................................................................... 1 contents ........................................................................................................................... 2 block diagram.................................................................................................................. 3 pin assignments.............................................................................................................. 3 block functions............................................................................................................... 4 pin functions ................................................................................................................... 5 absolute maximum ratings ............................................................................................ 7 recommended operating conditions............................................................................ 7 digital dc characteristics............................................................................................... 7 clock input characteristics ............................................................................................ 8 system reset ................................................................................................................... 8 current consumption...................................................................................................... 9 analog characteristics.................................................................................................. 10 digital ac timing ........................................................................................................... 11 register functions ........................................................................................................ 17 msk modem operation ................................................................................................. 22 dtmf receiver operation ............................................................................................. 25 recommended external circuit examples .................................................................. 29 package .......................................................................................................................... 32 important notice ............................................................................................................ 33 asahi kasei [AK2363] ms0583-e-01 2008/06 - 3 - block diagram pin assignments t c l k t d a t a rxino rxin v d d v s s 3 2 19 20 6 14 agnd sdata 7 s c l k 5 c s n 4 t e s t 17 r s t n 1 rdffd/rdata 8 rclk 9 d t m f i n 18 std 10 l o a d n 13 ack 12 sd 11 x o u t 16 x i n 15 mod 22 modin 23 m skout 24 21 msk modulator 3 2 19 20 data demodulator msk bpf 18 tclk rxin rxino s t d l o a d n dtmf receiver 10 13 8 control register s d a t a s c l k c s n t e s t 7 5 4 17 agnd + a g n d 21 osc xin xout 3.6864mhz 16 15 tdata msk dac vr r d f f d / r d a t a 9 11 12 sd ack digital pll mod m s k o u t m o d i n d t m f i n r s t n div (1/2,3,4) power on at mode 1,2,3, 4,5,6 power on at mode 2,4,6 power on at mode 3,4,6 power on at mode 5,6 - + txa msk lpf agc (pga) msktx dtmfsl 22 23 24 1 - + rxa + vdd vss 6 14 r c l k asahi kasei [AK2363] ms0583-e-01 2008/06 - 4 - block functions block function msk modulator this circuit generates an msk signal according to the logic of a digital signal input from the tdata pin. msk dac dac that converts data generated by the msk modulator into an analog signal. msk lpf this circuit is a low-pass filter for eliminating the clock component included in the msk dac signal. a switch for changing between the mute and active states is provided between this filter and vr and is set by setting register msktx. vr this control adjusts the output level of the transmit msk signal. setting register: vr[4:0] adjustment range: -6.0db to +6.0db in 0.5db steps txa operational amplifier for gain adjustment of the transmit msk signal and for forming a smoothing filter for removing noise components included in the output signal. use an external resistor and capacitor to set the gain to 0db and the cut-off frequency to around 13khz. rxa operational amplifier for gain adjustment of the receive demodulation signal and for forming a filter for preventing aliasing noise in the scf circuit in the subsequent stage. use external resistors and capacitors to set the gain to 20db or less and the cut-off frequency to around 40khz. msk bpf band-pass filter to eliminate out-of-band components included in the receive msk signal. data demodulator this circuit demodulates the msk signal and generates data. digital pll this circuit detects the carrier signal from the msk signal and regenerates a clock signal. agc(pga) agc (auto gain control) circuit for adjusting the input level of the dtmf signal automatically. setting register: agcsw or agcsw. when disabled, this circuit functions as a pga (programmable gain amp) circuit. setting register: pga[1:0] adjustment range: 0db to +12db in 4db steps a switch for changing the input is provided between this circuit and rxa and is set by setting register dtmfsl. dtmf receiver dtmf signal detection circuit. it decodes the input signal and outputs 4-bit code. osc this circuit generates a 3.6864mhz reference clock signal from an external crystal oscillator and resistor. div (1/2,1/3,1/4) when a signal of which frequency is twice, three times, or four times higher than 3.6864mhz is input from the outside, this circuit divides the signal frequency by two, three, or four. setting register: mcksl[1:0] agnd this circuit generates the reference voltage (1/2vdd) for internal analog signals. control register control registers set the switches and control in the ic according to the serial input data consisting of a 1-bit instruction, a 4-bit address, and 8-bit data. a built-in data buffer is provided to hold 8-bit msk receive data for easier interfacing with the cpu. at power-on, a system reset is caused by the rstn pin. a soft reset is set by the srst register. (refer to the description of the registers.) asahi kasei [AK2363] ms0583-e-01 2008/06 - 5 - pin functions pin no. pin name pin type pin status at power- down function 1 rstn di z reset pin 2 tdata di z msk signal transmit data input pin data is input from this pin on the rising edge of the clock signal on the tclk pin. 3 tclk do l msk signal transmit clock output pin 4 csn di z chip select input pin for serial data 5 sclk di z clock input pin for serial data 6 vdd pwr - vdd power supply pin connect this pin to a power supply ranging from 2.6v to 3.7v with less noise. connect a bypass capacitor of 0.1 m f or higher between this pin and the vss pin. 7 sdata db z serial data i/o pin 8 rdffd/ rdata do l msk signal receive flag/frame detection signal/rdata signal output pin two types of information is output depending on the fsl register status. if fsl is set to 1 to set the msk signal receive flag output mode (rdf), this pin is set to the low output level when 8 bits of the msk receive signal have been written to the receive data register. if fsl is set to 0 to set the frame detection signal output mode (fd), a low-level pulse is output on this pin when a frame pattern is detected. if setting register mskrclk is set to 1, the rdata signal is output. 9 rclk do l msk signal receive clock output pin 10 std do l steering delay output pin for dtmf signal detection this pin goes high when internal data has been updated after completion of dtmf rx signal decoding. 11 sd do l dtmf signal receive data output pin if the loadn pin input is low, the result of dtmf rx signal decoding is output serially starting from the msb in synchronization with the falling edge of the ack pin input. if the loadn pin input is high, the high level is output. 12 ack di z clock input pin for dtmf signal receive data read 13 loadn di z enable signal input pin for dtmf signal receive data read if the low level is input, dtmf signal receive data can be read. asahi kasei [AK2363] ms0583-e-01 2008/06 - 6 - pin no. pin name pin type pin status at power- down function 14 vss pwr - vss power supply pin always apply 0v. 15 xin di/ao *4) pin for connecting a crystal oscillator a reference clock used within this ic is generated by connecting a 3.6864mhz oscillator between this pin and the adjacent xout pin. for detailed information about the connection method and the method for supplying an external clock, refer to recommended external circuit examples. 16 xout ai *4) pin for connecting a crystal oscillator 17 test di z test output pin this pin is used as a test pin before shipment. normally, connect this pin to vss. 18 dtmfin ai z dtmf signal input pin 19 rxino ao z rxa amplifier output pin *1) 20 rxin ai z demodulated receive signal input pin inverted input pin of the rxa amplifier. this pin, with resistors and capacitors externally connected, forms a pre-filter. 21 agnd ao *3) analog ground output pin connect a 0.1 m f capacitor between this pin and the vss pin to stabilize the analog ground level. 22 mod ao z modulated transmit signal output pin *2) 23 modin ai z modulated transmit signal input pin inverted input pin of the txa amplifier. this pin, with a resistor and capacitor externally connected, forms a smoothing filter. 24 mskout ao z msk signal level output pin *1) note a : analog, d : digital, pwr : power, i : input, o : output, b : bidirectional , z : high-z, l : low *1) output load requirement: load impedance > 30k, load capacitance < 15pf *2) output load requirement: load impedance > 10k, load capacitance < 50pf *3) agnd level *4) the xin pin output level is determined by the xout pin input level. asahi kasei [AK2363] ms0583-e-01 2008/06 - 7 - absolute maximum ratings parameter symbol min. max. unit power supply voltage vdd -0.3 4.6 v ground level vss 0 0 v input voltage v in -0.3 vdd+0.3 v input current (except power pin) i in -10 +10 ma storage temperature t stg -55 130 c note all voltages are relative to the vss pin. caution if the device is used in conditions exceeding these values, the device may be destroyed. normal operations are not guaranteed in such extreme conditions. recommended operating conditions parameter symbol condition min. typ. max. unit operating temperature ta -40 85 c operating power supply voltage vdd 2.6 3.0 3.7 v analog reference voltage agnd 1/2vdd v note all voltages are relative to the vss pin. digital dc characteristics parameter symbol condition min. typ. max. unit high level input voltage v ih sclk, sdata, csn, loadn, ack, tdata, rstn, 0.8vdd v low level input voltage v il sclk, sdata, csn, loadn, ack, tdata, rstn, 0.2vdd v high level input current i ih v ih =vdd sclk, sdata, csn, loadn, ack, tdata, rstn, 10 m a low level input current i il v il =0v sclk, sdata, csn, loadn, ack, tdata, rstn, -10 m a high level output voltage v oh i oh =+0.2ma sdata, rdffd/rdata, rclk, std, sd, tclk vdd-0.4 vdd v low level output voltage v ol i ol =-0.4ma sdata, rdffd/rdata, rclk, std, sd, tclk 0.0 0.4 v asahi kasei [AK2363] ms0583-e-01 2008/06 - 8 - clock input characteristics parameter symbol condition min. typ. max. unit remarks mck0 xin,xout 3.6864 mhz clock frequency mck1,2 xin 7.3728 11.0592 14.7456 mhz *1), *2) high level input voltage v mck1_ih xin 1.5 v *1) low level input voltage v mck1_il xin 0.4 v *1) input amplitude v mck2 xin 0.2 1.0 v pp *2) *1) these values apply when the clock signal is input on the xin pin directly. for details, refer to 6), "oscillator circuit", in "recommended external circuit examples". *2) these values apply when the clock signal is input on the xin pin via dc cut. for details, refer to 6), "oscillator circuit", in "recommended external circuit examples". system reset parameter symbol condition min. typ. max. unit remarks hardware reset signal input width t rstn rstn pin 1 us *1) software reset srst register *2) *1) after power-on and passed 35ms or longer, be sure to perform a hardware reset operation (register initialization). the system is reset by a low pulse input of 1 m s (min.) and enters the normal operation state. at this moment, the digital (di) pins are set as follows: rstn pin to high, tdata pin to low, csn pin to high, sclk pin to low, ack pin to high, loadn pin to high, test pin to vss. *2) when data 0xaa:10101010 is written to the srst[8:0] register, a software reset is performed. this setting initializes the registers and the operation mode is set to mode 1 (standby). for details, refer to "register functions". rstn v ih v il t rstn asahi kasei [AK2363] ms0583-e-01 2008/06 - 9 - current consumption parameter symbol condition min. typ. max. unit idd0 mode 0 osc: off, dtmf receiver: off, msk_tx: off, msk_rx: off 0.1 0.2 idd1 mode 1 osc: on, dtmf receiver: off, msk_tx: off, msk_rx: off 0.6 1.0 idd2 mode 2 osc: on, dtmf receiver: off, msk_tx: on, msk_rx: off 1.3 2.1 idd3 mode 3 osc: on, dtmf receiver: off, msk_tx: off, msk_rx: on 1.1 1.8 idd4 mode 4 osc: on, dtmf receiver: off, msk_tx: on, msk_rx: on 1.7 2.7 idd5 mode 5 osc: on, dtmf receiver: on, msk_tx: off, msk_rx: off 1.3 2.2 current consumption idd6 mode 6 osc: on, dtmf receiver: on, msk_tx: on, msk_rx: on 2.4 3.8 ma asahi kasei [AK2363] ms0583-e-01 2008/06 - 10 - analog characteristics unless otherwise specified, the following apply: mclk = 3.6864mhz, f = 1khz, vr = 0db the external circuit constants are set based on the recommended external circuit examples on pages 29 to 31. dbx is a standardized notation to match the operating voltage and is defined by equation 0dbx = -5 + 20log(vdd/2)dbm. 0dbm = 0.775vrms 1) msk modem characteristics parameter condition min. typ. max. unit remarks tx signal @mod 1.2khz signal output -12 -11 -10 dbx tx signal distortion @mod 1.2khz signal output -32 db rx signal @rxino 1.2khz signal output -17 -11 -1 dbx vr gain deviation @mskout -6.0db to +6.0db, in 0.5db steps linearity -0.5 0.5 db 2) dtmf receiver characteristics parameter condition min. typ. max. unit remarks @rxino, agc disable, pga=0db *2), *3), *6) -27 0 dbx @rxino, agc enable, *2), *3), *6) -40 0 dbx @dtmfin, agc disable, pga=0db *2), *3), *6) -27 -2 dbx tone input level accept (for each tone of composite signal) @dtmfin, agc enable, *2), *3), *6) -40 -2 dbx twist accept *3), *6), *8) 10 db frequency deviation accept *2), *6) 1.5% 2hz frequency deviation reject *2), *6) 3.5% third tone tolerance *1), *2), *6), *7) -16 db noise tolerance *1), *2), *4), *6), *7) -12 db dial tone tolerance *1), *2), *5), *6), *7) +17 db pga gain deviation 0db to +12db, in 4db steps -0.5 +0.5 db *1) refers to nominal dtmf frequencies. *2) high/low tones have the same amplitudes. *3) high/low tones are deviated by 1.5% 2hz. *4) bandwidth is limited from 0 to 3khz gaussian noise. *5) dialtones of 350hz and 440hz 2% *6) error rates better than 1 in 10000 *7) reference dtmf signal input level is -22dbx or less. *8) twist = high tone/low tone asahi kasei [AK2363] ms0583-e-01 2008/06 - 11 - digital ac timing 1) serial interface timing the AK2363 writes and reads data via the three-wire synchronous serial interface by means of csn, sclk, and sdata. sdata (serial data) consists of a write/read identification bit (r/w), a register address (starting from the msb, a3 to a0), and control data (starting from the msb, d7 to d0). write (write instruction) read (read instruction) r/w: this bit indicates whether an access to a register is a write access or read access. if this bit is low , a write is performed; if the bit is high , a read is performed. a3 to a0: these bits indicate the address of the register to be accessed. d7 to d0: data to be written to or read from the register. <1> csn (chip select) is normally set to the high level. when csn is set to the low level, the serial interface becomes active. <2> when a write operation is performed, an identification bit, an address, and data are input from sdata in synchronization with the rising edges of 14 sclk clock pulses while csn is low. during the time between address a0 and data d7, sdata must be held low. when a read operation is performed, an identification bit and an address are input from sdata in synchronization with the rising edges of the first five clock pulses of sclk, and data at a specified address is output in synchronization with the falling edges of the following nine clock pulses while csn is low. note that data between address a0 and data d7 is undefined. during the data output period in the latter nine clock pulses of sclk, the input to sdata must be hi-z. <3> write and read settings are made on the assumption that 14 clock pulses are input from sclk while csn is low. note that if clock pulses more than or less than 14 clock pulses are input, data cannot be set correctly. csn sclk sdata (input) r/w sdata (output) hi-z a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 csn sclk sdata (input) r/w sdata (output) hi-z a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 hi-z asahi kasei [AK2363] ms0583-e-01 2008/06 - 12 - 2) detail timing write instruction read instruction rising and falling times parameter symbol condition min. typ. max. unit csn setup time t css 100 ns sdata setup time t ds 100 ns sdata hold time t dh 100 ns sclk high time t wh 500 ns sclk low time t wl 500 ns csn low hold time t cslh 100 ns csn high hold time t cshh 100 ns sdata hi-z setup time t sd 500 ns sclk to sdata output delay time t dd loaded by 20pf 400 ns csn to sdata input delay time t cd loaded by 20pf 200 ns sclk rising time t r 100 ns sclk falling time t f 100 ns note digital input timing measurements are made at 0.5vdd for rising edges and falling edges. digital output timing measurements are made at 0.5vdd for rising edges and falling edges. sclk v il v ih t r t f csn sclk sdata (input) t css t wh t wl t dh t ds r/w a3 a2 a1 a0 d7 d6 d0 d1 sdata (output) high-z t cslh t cshh csn sclk sdata (input) t css t sd t dd r/w a3 a2 a1 a0 sdata (output) high-z t cslh t cd high-z d7 d6 d0 d1 asahi kasei [AK2363] ms0583-e-01 2008/06 - 13 - 3) msk modulator timing parameter symbol min. typ. max. unit csn rising to tclk falling msksl = 0 msksl = 1 t 1 208 417 m s tclk period msksl = 0 msksl = 1 t 2 417 833 m s tdata set up time tdata hold time tdata hold time2 t s t h t h2 1 1 2 m s note register setting is synchronized with the rising edge on the csn pin. when the data is maintained for 2 m s or longer specified by tdata hold time2 (t h2 ), the signal from mod pin is ended in zero cross point. 4) msk demodulator timing parameter symbol condition min. typ. max. unit rclk period and fd pulse width msksl = 0 msksl = 1 t 417 833 m s csn sclk sdata (input) t 1 1 tclk tdata 0 1 t 2 t s t h t h2 mode 2,4,6 msktx=0 1 mod 1200bit/s msksl=1 1200hz 1800hz mod msksl=0 2400bit/s 1200hz 2400hz asahi kasei [AK2363] ms0583-e-01 2008/06 - 14 - csn sclk sdata (input) fsl fcln mode 3,4,6 a[3:0]=0110 (internal register) (internal register) rclk_n (internal node) rdata_n fd_n rdf_n sdata (output) (internal node) (internal node) (internal node) md7 md6 md5 md4 md3 md2 md1 md0 md7 md 6 md5 md4 md3 md2 md1 md0 md7 md6 fsl=1 fsl=fcln=0 fcln=1 automatically mode 1,2,5 t data read asahi kasei [AK2363] ms0583-e-01 2008/06 - 15 - 5) dtmf receiver timing parameter symbol condition min. typ. max. unit agc disable 5 11 16.8 ms tone present detection time(reference value) t dp agc enable 5 20 44 ms tone absent detection time (reference value) t da 0.5 4 8.5 ms agc disable gtp[3:0]=0100 54.5 ms tone duration accept time *1) t rec agc enable gtp[3:0]=0001 54 ms tone duration reject time*1) t rej 32.2 ms interdigit pause accept time *1) t id 28.4 ms interdigit pause reject time *1) t do 1.6 ms gt (internal counter) to std propagation delay t pstd 21.7 m s std rising to loadn falling time t dl 100 ns ack low period t cll 500 ns ack high period t clh 500 ns loadn setup time t ls 500 ns sd output delay time t pd loaded by 20pf 200 ns sd output disable time t df loaded by 20pf 200 ns ack rising time t clr 100 ns ack falling time t clf 100 ns *1) the data shows the values when registers gtpn and gtan (n = 0 to 3) contain their initial values. this data can be adjusted by setting registers gtpn and gtan (n = 0 to 3) (refer to pages 26 and 27). *2) digital input timing measurements are made at 0.5vdd for rising edges and falling edges. digital output timing measurements are made at 0.5vdd for rising edges and falling edges. asahi kasei [AK2363] ms0583-e-01 2008/06 - 16 - note internal data of the lsi device is changed by dtmf data immediately before std goes high. sd #n decoded tone #n+1 rxin t rej t rec t dp t da t gtp tone #n t gta tone #n+1 t id t do internal counter values t gtp ,t gta internal data std decoded tone #n decoded tone #n-1 t pstd value in register gta loadn value in register gtp ack sd t dl msb lsb ( msb first ) sd #n+1 dtmfin ack sd ack loadn sd2 sd1 sd0 sd3 t ls t clh t cll t pd t clr t clf t df (msb) (lsb) v ih v il asahi kasei [AK2363] ms0583-e-01 2008/06 - 17 - register functions 1) register configuration address data a3 a2 a1 a0 function d7 d6 d5 d4 d3 d2 d1 d0 0 0 0 0 control register 1 bs2 bs1 bs0 msksl msktx mskrclk fsl fcln 0 0 0 1 control register 2 mcksl1 mcksl0 txrxa vr4 vr3 vr2 vr1 vr0 0 0 1 0 dtmf register 1 gtp3 gtp2 gtp1 gtp0 gta3 gta2 gta1 gta0 0 0 1 1 dtmf register 2 - stdpga1 stdpga0 dtmfsl agcsw1 agcsw0 pga1 pga0 0 1 0 0 modem frame pattern 1 lower 8 bits of msk modem frame pattern 0 1 0 1 modem frame pattern 2 upper 8 bits of msk modem frame pattern 0 1 1 0 modem receive data register msk receive data (rdata) 0 1 1 1 software reset srst[7:0] 1 0 0 0 revision register - - - - revnum[3:0] 1 0 0 1 test register 1 test register 1 for lsi test operation (not accessible) 1 0 1 0 test register 2 test register 2 for lsi test operation (not accessible) 1 0 1 1 not used - - - - - - - - not used - - - - - - - - 1 1 1 1 not used - - - - - - - - note 1 an access to data indicated by "-" does not have any effect on the lsi operation, and always reads 0. note 2 the srst[7:0] register at address 0111 is write-only. the msk receive data register at address 0110 and the revnum[3:0] register at address 1000 are read-only. note 3 test registers are located at addresses 1001 and 1010 and cannot be accessed. if an access is made to these addresses inadvertently, the lsi operation is not guaranteed. 2) descriptions of registers 2.1) control register 1 address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 0 0 0 bs2 bs1 bs0 msksl msktx mskrclk fsl fcln initial value 0 0 0 1 1 0 0 1 asahi kasei [AK2363] ms0583-e-01 2008/06 - 18 - 2.1.1) operation mode setting bs2 bs1 bs0 mode name osc and agnd msk modem tx msk modem rx dtmf receiver 0 0 0 mode 0 (power down) off off off off 0 0 1 mode1 (standby) on off off off 0 1 0 mode 2 on on off off 0 1 1 mode 3 on off on off 1 0 0 mode 4 on on on off 1 0 1 mode 5 on off off on 1 1 0 mode 6 on on on on note: after setting the system reset(mode 0), select mode 2 to 6 via setting mode 1. 2.1.2) msk modem setting function data item 0 1 remarks msksl msk modem transmission speed 2400 bit/s 1200 bit/s msktx msk transmit output off (mute) on (active) rclk pin high output rclk pin active mskrclk rclk output switching rdffd/rdata pin active (rdffd signal output) rdffd/rdata pin active (rdata signal output) fsl rdf/fd output switching frame detection signal (fd) output receive flag signal (rdf) output fcln frame detect on (enable) off (disable) 2.2) control register 2 address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 0 0 1 mcksl1 mcksl0 txrxa vr4 vr3 vr2 vr1 vr0 initial value 0 0 0 0 1 1 0 0 mcksl1 mcksl0 function remarks 0 0 master clock: 3.6864mhz 0 1 master clock: 7.3728mhz external input only 1 0 master clock: 11.0592mhz external input only 1 1 master clock: 14.7456mhz external input only function data item 0 1 remarks txrxa txa and rxa amplifier operation off (power off) on (power on) ored with operation mode setting; valid in modes 1 to 6 asahi kasei [AK2363] ms0583-e-01 2008/06 - 19 - vr4 vr3 vr2 vr1 vr0 vr gain (db) 0 0 0 0 0 -6.0 0 0 0 0 1 -5.5 0 0 0 1 0 -5.0 0 0 0 1 1 -4.5 0 0 1 0 0 -4.0 0 0 1 0 1 -3.5 0 0 1 1 0 -3.0 0 0 1 1 1 -2.5 0 1 0 0 0 -2.0 0 1 0 0 1 -1.5 0 1 0 1 0 -1.0 0 1 0 1 1 -0.5 0 1 1 0 0 0.0 vr4 vr3 vr2 vr1 vr0 vr gain (db) 0 1 1 0 1 +0.5 0 1 1 1 0 +1.0 0 1 1 1 1 +1.5 1 0 0 0 0 +2.0 1 0 0 0 1 +2.5 1 0 0 1 0 +3.0 1 0 0 1 1 +3.5 1 0 1 0 0 +4.0 1 0 1 0 1 +4.5 1 0 1 1 0 +5.0 1 0 1 1 1 +5.5 1 1 0 0 0 +6.0 2.3) dtmf register 1 address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 0 1 0 gtp3 gtp2 gtp1 gtp0 gta3 gta2 gta1 gta0 initial value 0 1 0 0 0 0 1 0 data function remarks gtp3 to gtp0 register for setting dtmf receiver guard time t gtp . for details, refer to "dtmf receiver operation". gta3 to gta0 register for setting dtmf receiver guard time t gta . for details, refer to "dtmf receiver operation". asahi kasei [AK2363] ms0583-e-01 2008/06 - 20 - 2.4) dtmf register 2 address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 0 1 1 - stdpga1 stdpga0 dtmfsl agcsw1 agcsw0 pga1 pga0 initial value - 0 0 1 0 1 0 0 stdpga1 stdpga0 pga gain (db) 0 0 0 0 1 +4 1 0 +8 1 1 +12 note when agc circuit is enable, automatic set pga gain can be monitored by stdpga[1:0] register. this register is read-only and synchronized with the rising edge on the dtmf signal detection pin: std. function data item 0 1 remarks dtmfsl dtmf input switching dtmfin pin input rxin pin input agcsw1 agcsw0 function remarks 0 0 agc circuit off (disable) pga gain can be set with pga[1:0] register. 0 1 agc circuit on (enable) pga gain can be monitored by stdpga[1:0] register. the register data is renewal at every dtmf detection. initial value 1 0 agc circuit off (disable) pga gain may be set with the latest stdpga[1:0] register, then agc is off. pga gain can not be set with pga[1:0]. 1 1 not used pga1 pga0 pga gain (db) 0 0 0 0 1 +4 1 0 +8 1 1 +12 note when the agc circuit is disabled, the gain of the pga circuit can be set manually with pga[1:0]. asahi kasei [AK2363] ms0583-e-01 2008/06 - 21 - 2.5) modem frame pattern register (at power-down: specific low-power radio) address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 1 0 0 f07 f06 f05 f04 f03 f02 f01 f00 initial value 1 0 1 0 1 0 0 0 0 1 0 1 f15 f14 f13 f12 f11 f10 f09 f08 initial value 0 0 0 1 1 0 1 1 2.6) modem receive data register address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 1 1 0 rd7 rd6 rd5 rd4 rd3 rd2 rd1 rd0 msk receive data data item 0 1 remarks msksl=0 2.4khz 1.2khz rd7 to rd0 msksl=1 1.8khz 1.2khz data received first is rd7. this register is read-only , and no data can be written to the register. 2.7) software reset register address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 0 1 1 1 srst[7:0] initial value 0 0 0 0 0 0 0 0 when data 0xaa:10101010 is written to the srst[7:0] register, a software reset is performed. this sets bs[2:0] to mode 1 (standby) and the registers other than bs[2:0] to their initial values to place the system in the standby state. this register is write-only , and after completion of software reset, the register is set to 0. 2.8) revision register address data a3 a2 a1 a0 d7 d6 d5 d4 d3 d2 d1 d0 1 0 0 0 - - - - revnum[3:0] initial value - - - - 0 0 0 0 when the d3 to d0 data is accessed, the revision number for management can be read. this register is read-only , and no data can be written to the register. asahi kasei [AK2363] ms0583-e-01 2008/06 - 22 - msk modem operation 1) msk modulator the tx section of the modem interfaces with the modulator by using the tclk, tdata, and mod pins and register data bs2, bs1, bs0 (referred to as bs[2:0]), and msktx as follows: (1) set msktx to 1 and bs[2:0] to mode 2, 4, or 6 to start msk transmission. (2) a 1200hz or 2400hz clock is output on the tclk pin. in synchronization with the rising edge of tclk, the AK2363 reads msk transmit data from the tdata pin and outputs the modulated msk signal on the mod pin. (3) after as many bits as required have been transmitted, wait for two clock periods until the last bit of the msk signal has been transmitted . (4) then, set bs[2:0] to change from mode 2, 4, or 6 to mode 0,1, 3, or 5. alternatively, set msktx to 0 to end signal transmission. : msk data has been transmitted. msktx=1 and [ bs[2:0] = 010 (mode 2) or bs[2:0] = 100 (mode 4) or bs[2:0] = 110 (mode 6)] no wait time 833 m s or more (when msksl = 0) 1666 m s or more (when msksl = 1) required bit been transmitted? : start msk signal transmission. : msk signal transmission in progress yes in synchronization with clock on tclk pin, read data from tdata pin and transmit msk signal on mod pin msktx = 0 or [ bs[2:0] = 000 (mode 0) or bs[2:0] = 001 (mode 1) or bs[2:0] = 011 (mode 3) or bs[2:0] = 101 (mode 5)] : end msk signal transmission. asahi kasei [AK2363] ms0583-e-01 2008/06 - 23 - 2) msk demodulator 2.1) when frame detect is not used the modem interfaces with the demodulator by using the rxin, rclk, and rdffd/rdata pins, register data bs[2:0], and mskrclk as follows: (1) set bs[2:0] to select mode 3, 4, or 6, and at the same time set mskrclk to 1 to start msk reception. (2) when the msk signal is received on the rxin pin, data demodulated via msk-bpf, data-demodulator, and the digital-pll circuit is output successively as rdata on the rdffd/rdata pin in synchronization with the falling edge of the 1200hz or 2400hz clock signal output on the rclk pin. (3) set bs[2:0] to select mode 0, 1, 2, or 5. the msk signal reception operation then ends. 2.2) when frame detect is used the modem interfaces with the demodulator by using the rxin, rdffd/rdata, sdata, sclk, and csn pins, and register data bs[2:0], mskrclk, fsl, and fcln as follows: (1) set bs[2:0] to select mode 3, 4, or 6, and at the same time set mskrclk to 0, fsl to 0, and fcln to 0 to start msk reception. this setting allows the rdffd/rdata pin to function as rdffd frame detection (fd) and output the high level, waiting for a synchronized frame. at this time, the csn pin is set to the high input level, and the sclk pin is set to the low input level. (2) when a synchronized frame is detected, the rdffd/rdata pin performs a frame detection (fd) operation. the pin is at the low output level during period t, and fcln data is set to 1 automatically. (3) when the low level on the rdffd/rdata pin is monitored, set fsl to 1 so that the msk receive flag signal (rdf) is output. (4) after 8-bit receive data (md7 to md0) is transferred from internal node rdata_n to the buffer, the rdffd/rdata pin is set to the low output level as an rdf operation. (5) when the cpu monitors this change, demodulated data (rd7 to rd0) is read from the modem receive data register (address: a[3:0] = 0110). (6) after the data has been read from the modem receive data register, the rdffd/rdata pin is set to the high output level, indicating that data rd7 to rd0 in the buffer has all been read. (7) by repeating steps (4), (5), and (6) above, demodulated data can be read from the receive data register . (8) after completing read of necessary data, set fcln to 0. then, internal nodes rclk and rdata are initialized, and the system waits for another synchronized frame. (9) set bs[2:0] to select mode0, 1, 2, or 5. the msk signal reception operation then ends. this frame detection circuit does not have a reset feature. therefore, if the above steps (1) to (8) are canceled in the middle, the steps must be restarted from (1). as mentioned in (2), while the rdffd/rdata pin is at the low output level as a result of frame detection (fd), the fcln data is set to 1 automatically. during this period, an attempt to write 0 is ignored. setting must be made again after the rdffd/rdata pin is set to the high output level. asahi kasei [AK2363] ms0583-e-01 2008/06 - 24 - : wait for another synchronized frame. : rdf is set to high level after msk receive data is read, and it is set to low level after msk receive data is updated. fcln = 0 is rdffd at the l ow output level? yes no fsl=1 is rdffd at the l ow output level? read msk receive data fcln = 0 has all receive data been read? : specify output of frame detection signal (fd). : wait until synchronized frame is detected. : wait until 8-bit data is received. no yes fsl = 0 fcln = 1 (automatically) : turn on frame detect. : cancel frame detect. : specify output of receive flag signal (rdf). [ bs[2:0] = 011 (mode 3) or bs[2:0] = 100 (mode 4) or bs[2:0] = 110 (mode 6)] [ bs[2:0] = 000 (mode 0) or bs[2:0] = 001 (mode 1) or bs[2:0] = 010 (mode 2) or bs[2:0] = 101 (mode 5)] : start msk signal reception. : end msk signal reception. asahi kasei [AK2363] ms0583-e-01 2008/06 - 25 - dtmf receiver operation 1) dtmf receiver the dtmf receiver detects a received dtmf signal and outputs a 4-bit code. the output 4-bit codes are listed below. output code table sd3 sd2 sd1 sd0 low tone [hz] high tone [hz] key (msb) (lsb) 1209 1 0 0 0 1 1336 2 0 0 1 0 697 1477 3 0 0 1 1 1209 4 0 1 0 0 1336 5 0 1 0 1 770 1477 6 0 1 1 0 1209 7 0 1 1 1 1336 8 1 0 0 0 852 1477 9 1 0 0 1 1336 0 1 0 1 0 1209 * 1 0 1 1 941 1477 # 1 1 0 0 697 1633 a 1 1 0 1 770 1633 b 1 1 1 0 852 1633 c 1 1 1 1 941 1633 d 0 0 0 0 2) decoding result output the result of dtmf rx signal decoding is output on the sd pin through the internal output buffer. the internal output buffer is controlled with the loadn pin. loadn pin input sd pin output 0 decoding result output 1 high level output asahi kasei [AK2363] ms0583-e-01 2008/06 - 26 - 3) setting the guard time the tone duration accept time (t rec ), tone duration reject time (t rej ), interdigit pause accept time (t id ), and interdigit pause reject time (t do ) can be set to desired values by adjusting the guard time as shown below. the guard time is set in registers gtpn and gtan (n = 0 to 3). t one duration accept time (t rec ) = tone present detection time (t dp ) + guard time (t gtp ) tone duration accept time (t rec ) = tone present detection time (t dp ) + guard time (t gtp ) - tone absent detection time (t da ) interdigit pause accept time (t id ) = tone absent detection time (t da ) + guard time (t gta ) interdigit pause reject time (t do ) = tone absent detection time (t da ) + guard time (t gta ) - tone present detection time (t dp ) guard time (t gtp ) setting range 10ms to 134ms guard time (t gtp ) setting step 9ms guard time (t gta ) setting range 19ms to 134ms guard time (t gta ) setting step 9ms for the relationships between settings in registers gtpn and gtan (n = 0 to 3) and guard time values, refer to the tables given below. the tables also show the relationships with the tone duration accept time (t rec ) and interdigit pause accept time (t id ). register gtpn (n = 0 to 3) vs. guard time t gtp vs. tone duration accept time t rec (agc disable) t dp (ms) min. typ. max. 5 11 16.8 gtp register t gtp (ms) t rec (ms) = t gtp + t dp 3 2 1 0 typ. min. typ. max. 0 0 0 1 10 15 21 27 0 0 1 0 19 24 30 36 0 0 1 1 28 33 39 45 0 1 0 0 37 42 48 54 0 1 0 1 46 51 57 63 0 1 1 0 54 60 65 71 0 1 1 1 63 68 74 80 1 0 0 0 72 77 83 89 1 0 0 1 81 86 92 98 1 0 1 0 90 95 101 107 1 0 1 1 99 104 110 116 1 1 0 0 108 113 119 125 1 1 0 1 117 122 128 134 1 1 1 0 126 131 137 143 1 1 1 1 134 139 145 151 asahi kasei [AK2363] ms0583-e-01 2008/06 - 27 - register gtan (n = 0 to 3) vs. guard time t gta vs. interdigit pause accept time t id t da (ms) min. typ. max. 0.5 4 8.5 gta register t gta (ms) t id (ms) = t gta + t da 3 2 1 0 typ. min. typ. max. 0 0 1 0 19 19 23 27 0 0 1 1 28 28 32 36 0 1 0 0 37 37 41 45 0 1 0 1 46 46 50 54 0 1 1 0 54 55 58 63 0 1 1 1 63 64 67 72 1 0 0 0 72 73 76 81 1 0 0 1 81 82 85 90 1 0 1 0 90 91 94 99 1 0 1 1 99 99 103 107 1 1 0 0 108 108 112 116 1 1 0 1 117 117 121 125 1 1 1 0 126 126 130 134 1 1 1 1 134 135 138 143 cautions 1) t gtp and t gta in the tables are typical values. a variation of 1ms should be considered. 2) if guard time gtpn (n = 0 to 3) is set to 0000, a wrong decoding result may be output. therefore, avoid such setting. 3) if guard time gtan (n = 0 to 3) is set to 0000 and 0001, the interdigit pause reject time cannot be acquired. therefore, avoid such settings. asahi kasei [AK2363] ms0583-e-01 2008/06 - 28 - 4) agc circuit operation when agcsw [1:0] register is set to 01, agc circuit is enable to operate as shown below table. rxino or dtmfin pin input level (dbx) pga setting gain (db) pga=0db internal level (dbx) pga=+4db internal level (dbx) pga=+8db internal level (dbx) pga=+12db internal level (dbx) -21 0 -21 -17 -13 -9 -22 0 -22 -18 -14 -10 -23 0 -23 -19 -15 -11 -24 0 -24 -20 -16 -12 -25 0 -25 -21 -17 -13 -26 0 -26 -22 -18 -14 -27 0 -27 -23 -19 -15 -28 +4 - -24 -20 -16 -29 +4 - -25 -21 -17 -30 +4 - -26 -22 -18 -31 +4 - -27 -23 -19 -32 +8 - - -24 -20 -33 +8 - - -25 -21 -34 +8 - - -26 -22 -35 +8 - - -27 -23 -36 +12 - - - -24 -37 +12 - - - -25 -38 +12 - - - -26 -39 +12 - - - -27 asahi kasei [AK2363] ms0583-e-01 2008/06 - 29 - recommended external circuit examples 1) txa amplifier this amplifier is used to adjust the gain of the tx signal and to form a smoothing filter. because the mskout pin output includes a 115.2khz sampling clock, it is recommended that this amplifier be used for smoothing. the following gives a sample configuration of a first order lpf with a gain of 0db and cut-off frequency of 13khz: 2) rxa amplifier this amplifier is used for adjusting the gain of the rx signal. set the gain to 20db or less. for high frequency noise over 100khz, form an anti-aliasing filter. the following gives a sample configuration of a second order lpf with a gain of 20db and cut-off frequency of 39khz: r3 c1=0.47 m f r1=10k w _ + lsi c2 r1 rxa rxin rxino 19 20 c3 c2=33pf c1 r2 r2=9.1k w r3=100k w c3=560pf agnd 21 mskout r1 r1=r2=56k w _ + lsi c r2 txa 24 mod modin 23 22 c=220pf asahi kasei [AK2363] ms0583-e-01 2008/06 - 30 - 3) external dtmfin capacitor connect a capacitor to the dtmfin pin to adjust the dc offset of the input signal and the internal operation point in the lsi device. this forms a high-pass filter with fc being about 3hz. 4) power supply stabilizing capacitors connect capacitors between the vdd and vss pins to eliminate ripple and noise included in power supply as shown below. for maximum effect, the capacitors should be placed at a shortest distance between the pins. 5) agnd stabilizing capacitor it is recommended that a capacitor with 0.1 m f be connected between vss and the agnd pin to stabilize the agnd signal. the capacitor should be placed as close to the pin as possible. dtmfin lsi c = 0 . 1 m 18 c lsi c2 vdd vss c1 c2=4.7 m f (electrolytic cap) c1=0.1 m f (ceramic cap) vdd vss 6 14 lsi c agnd c=0.1 m f (electrolytic cap) 21 asahi kasei [AK2363] ms0583-e-01 2008/06 - 31 - 6) oscillator circuit when the built-in oscillator circuit is to be used, connect a 3.6864mhz crystal oscillator, a resistor, and capacitors as shown in fig. 1. the internal buffer is designed to allow stable oscillation of a crystal oscillator for the electrical equivalent circuitry with a resonance resistance of 150 (max.) and a shunt capacitance of 5pf (max.) . it is recommended that 22pf capacitors be connected externally so that the total load capacitance is 16pf (5pf + 22pf//22pf) or less. place the oscillator, resistor, and capacitors as close to the xin and xout pins as possible. when a clock signal is supplied externally, not only 3.6864mhz but also 7.3728mhz (twice higher than 3.6864mhz), 11.0592mhz (three times higher than 3.6864mhz), and 14.7456mhz (four times higher than 3.6864mhz) are supported. however, the internal frequency must always be set to 3.6864mhz by selecting division by 2, 3, or 4 for the divider in the subsequent stage. connect the clock signal as shown in fig. 2 or fig. 3 according to the clock amplitude level. the circuit in the first stage of the xin pin has a constant threshold voltage (0.8v). therefore, if the high level of the input clock is 1.5v or higher and the low level is 0.4v or lower, connect the clock signal as shown in fig. 2. if the input clock amplitude (p-p value) is 0.2v or higher and 1.0v or lower, connect the clock signal as shown in fig. 3. when the clock is to be shared with peripheral ics, the clock must be input and output on the xin pin. the clock amplitude must not exceed the absolute maximum rating. lsi xin 22pf xout 1m w 22pf 3.6864mhz fig. 1 lsi xin xout 3.6864mhz fig. 2 external clock in 15 16 7.3728mhz 11.0592mhz 14.7456mhz fig. 3 lsi xin 0.01uf xout 1m w 3.6864mhz external clock in 7.3728mhz 11.0592mhz 14.7456mhz asahi kasei [AK2363] ms0583-e-01 2008/06 - 32 - package 1) marking parts number 2363 date code x: date of production ones digit of the calendar year y: date of production week z: production lot identification code 2) dimensions package type: 24-pin qfnj (4.0 x 4.0 x 0.75mm, 0.5mm pitch) 0.5 4.00.1 4 . 0 0 . 1 b a 0.230.05 13 19 24 16 7 12 18 0 . 7 5 0 . 0 5 0.08 pin?1 i,d 0.3545b 0 . 4 0 0 . 1 m 0.10 0 . 2 2 . 4 0 . 1 5 2.40.15 exposed pad cautions: the central backside of the package called exposes pad should be connected to vss or no connects. 2363 xyyz asahi kasei [AK2363] ms0583-e-01 2008/06 - 33 - important notice important notice these products and their specifications are subject to change without notice. before considering any use or application, consult the asahi kasei microsystems co., ltd. (akm) sales office or authorized distributor concerning their current status. akm assumes no liability for infringement of any patent, intellectual property, or other right in the application or use of any information contained herein. any export of these products, or devices or systems containing them, may require an export license or other official approval under the law and regulations of the country of export pertaining to customs and tariffs, currency exchange, or strategic materials. akm products are neither intended nor authorized for use as critical components in any safety, life support, or other hazard related device or system, and akm assumes no responsibility relating to any such use, except with the express written consent of the representative director of akm. as used here: (a) a hazard related device or system is one designed or intended for life support or maintenance of safety or for applications in medicine, aerospace, nuclear energy, or other fields, in which its failure to function or perform may reasonably be expected to result in loss of life or in significant injury or damage to person or property. (b) a critical component is one whose failure to function or perform may reasonably be expected to result, whether directly or indirectly, in the loss of the safety or effectiveness of the device or system containing it, and which must therefore meet very high standards of performance and reliability. it is the responsibility of the buyer or distributor of an akm product who distributes, disposes of, or otherwise places the product with a third party to notify that party in advance of the above content and conditions, and the buyer or distributor agrees to assume any and all responsibility and liability for and hold akm harmless from any and all claims arising from the use of said product in the absence of such notification. |
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